diff --git "a/datasets/downstream/molecule/prediction/property/MoleculeNet/ESOL/train.csv" "b/datasets/downstream/molecule/prediction/property/MoleculeNet/ESOL/train.csv"
new file mode 100644--- /dev/null
+++ "b/datasets/downstream/molecule/prediction/property/MoleculeNet/ESOL/train.csv"
@@ -0,0 +1,903 @@
+SMILES,Text,Label
+CC(C)=CCCC(C)=CC(=O),Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.06
+c2ccc1scnc1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.5
+Clc1cc(Cl)c(c(Cl)c1)c2c(Cl)cccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.32
+CC12CCC3C(CCc4cc(O)ccc34)C2CCC1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.03
+Clc1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.14
+CCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.68
+CCCCCCCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.96
+CC(C)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.41
+CCC(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.47
+N#Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.0
+CCOP(=S)(OCC)Oc1cc(C)nc(n1)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.64
+CCCCCCCCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.94
+Clc1ccc(c(Cl)c1)c2c(Cl)ccc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.43
+CCOP(=S)(OCC)SCSCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.11
+CCOc1ccc(NC(=O)C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.35
+CCN(CC)c1c(cc(c(N)c1N(=O)=O)C(F)(F)F)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.47
+CCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.81
+Cn1c(=O)n(C)c2nc[nH]c2c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.39
+CCCCC1(CC)C(=O)NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.66
+CCCCCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.17
+CCc1ccc(CC)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.75
+CCOP(=S)(OCC)SCSC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.76
+ClC(=C)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.64
+CCCCC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+CN(C)C(=O)SCCCCOc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.93
+CCCCCCCI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.81
+c1c(Cl)cccc1c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.88
+OCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.15
+CC(C)C1CCC(C)CC1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.53
+CC(C)OC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.63
+CCCCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.55
+CC(=O)Nc1ccc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.08
+c1ccccc1n2ncc(N)c(Br)c2(=O),Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.13
+c2c(C)cc1nc(C)ccc1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.94
+CCCCCCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.66
+c1ccc2c(c1)ccc3c4ccccc4ccc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.06
+CCC(C)n1c(=O)[nH]c(C)c(Br)c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.52
+Clc1cccc(c1Cl)c2c(Cl)c(Cl)cc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.6
+Cc1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.62
+CC(C)CCC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.05
+Cc1ccc(C)c2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.14
+Cc1cc2c3ccccc3ccc2c4ccccc14,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.57
+CCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.19
+Clc1cc(Cl)c(Cl)c(c1Cl)c2c(Cl)c(Cl)cc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-9.15
+CCCOC(=O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.82
+CC34CC(O)C1(F)C(CCC2=CC(=O)C=CC12C)C3CC(O)C4(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.68
+Nc1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.8
+CCNc1nc(Cl)nc(n1)N(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.06
+CCC(Br)(CC)C(=O)NC(N)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.68
+Clc1ccccc1c2ccccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.27
+Clc2ccc(Oc1ccc(cc1)N(=O)=O)c(Cl)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.46
+O=C1NC(=O)NC(=O)C1(CC=C)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.37
+CCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.25
+CC(C)CCOC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.92
+O=C1N(COC(=O)CCCCC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.89
+Clc1cccc(c1)c2cc(Cl)ccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.01
+CCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.73
+COP(=S)(OC)SCC(=O)N(C)C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.0
+Cc1ncnc2nccnc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.47
+NC(=S)N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.32
+Cc1ccc(C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.77
+CCc1ccccc1CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.28
+ClC(Cl)(Cl)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.67
+CCCN(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.8
+CCN2c1cc(Cl)ccc1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.36
+O=N(=O)c1c(Cl)c(Cl)ccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.48
+CCCOC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.34
+Cc1cc(C)c2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.29
+c1(C#N)c(Cl)c(C#N)c(Cl)c(Cl)c(Cl)1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.64
+Clc1ccc(Cl)c(c1)c2ccc(Cl)c(Cl)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.25
+CC(C)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.27
+CC12CCC3C(CCC4=CC(=O)CCC34C)C2CCC1C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.45
+C1OC(O)C(O)C(O)C1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.39
+ClCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.63
+CCc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.17
+COC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.58
+Oc1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.74
+Cc1c[nH]c(=O)[nH]c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.51
+CC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.55
+Oc1c(I)cc(C#N)cc1I,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.61
+Oc1ccc(Cl)cc1C(=O)Nc2ccc(cc2Cl)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.7
+CCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.18
+c1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.0
+Nc3ccc2cc1ccccc1cc2c3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.17
+Cn1cnc2n(C)c(=O)[nH]c(=O)c12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.52
+COP(=S)(OC)SCC(=O)N(C(C)C)c1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.43
+CCCCCCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.21
+Clc1ccccc1c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.54
+CCCC(=C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.03
+CC(C)C(C)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.8
+Clc1cc(Cl)c(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.65
+Oc1cccc(c1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.01
+CCCCCCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.51
+CC(=O)OCC(COC(=O)C)OC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.6
+CCCCc1c(C)nc(nc1O)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.24
+CC1(C)C(C=C(Cl)Cl)C1C(=O)OC(C#N)c2ccc(F)c(Oc3ccccc3)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.34
+c1ccncc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.76
+CCCCCCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.43
+Cc1ccncc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.36
+CC34CC(O)C1(F)C(CCC2=CC(=O)CCC12C)C3CCC4(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.43
+CCSCc1ccccc1OC(=O)NC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.09
+CCOC(=O)CC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.82
+CC1=CCC(CC1)C(C)=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.26
+CC(C)(C)c1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.41
+Clc1cccc(I)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.55
+Brc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.35
+CC/C=C/C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.54
+Cc1cccc(C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.45
+ClC=C(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+Nc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.92
+Cc1cccc(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.82
+Oc2ncc1nccnc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.95
+CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.57
+CCC1(CCC(C)C)C(=O)NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.47
+CCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.52
+Fc1c[nH]c(=O)[nH]c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.08
+Oc1cccc(O)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.81
+CCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.24
+CCCCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.73
+C=CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.87
+CCCOC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.72
+NC(=O)CCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.02
+COP(=S)(OC)Oc1cc(Cl)c(I)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.62
+Cc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.08
+CCCCCC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+CCCCOC(=O)c1ccc(N)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.08
+CC(C)=CCC/C(C)=C\CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.46
+Clc1ccc(cc1)c2ccccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.28
+O=C1N(COC(=O)CCCCCCC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.52
+CCN(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.22
+CCN(CC(C)=C)c1c(cc(cc1N(=O)=O)C(F)(F)F)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.12
+Clc1ccc(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.57
+CCCC(C)(COC(N)=O)COC(N)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.81
+CI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.0
+O=C1N(COC(=O)CCCCCC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.3
+CC1=CC(=O)CC(C)(C)C1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.06
+O=C1NC(=O)NC(=O)C1(CC)C(C)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.39
+CCCCC(=O)CCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.58
+CCC(C)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.68
+ClCC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.09
+CCOP(=S)(CC)Oc1cc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.75
+CC12CCC(=O)C=C1CCC3C2CCC4(C)C3CCC4(O)C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.66
+Clc1cc(Cl)c(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.63
+Nc1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.72
+CCCCCCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.8
+COCC(=O)N(C(C)C(=O)OC)c1c(C)cccc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+CNC(=O)Oc1ccccc1OC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.05
+CCC(C)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+Oc1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.28
+CCCCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.36
+CCCCCCCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.24
+Cc1ccccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.52
+CC(C)OC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.1
+CNN,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.34
+CC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.41
+CCOP(=S)(OCC)ON=C(C#N)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.86
+CCNP(=S)(OC)OC(=CC(=O)OC(C)C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.41
+C=CC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.57
+Oc2ccc1ncccc1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.16
+Fc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.8
+CCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.47
+CCOC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.04
+CCCC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.36
+Cc1cc(C)c(C)c(C)c1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.0
+CCCCOC(=O)CCCCCCCCC(=O)OCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.9
+Clc1ccc(cc1)c2ccc(Cl)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.56
+Cc1cccnc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.38
+CC(=C)C1CC=C(C)C(=O)C1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.06
+CCOP(=S)(OCC)SCSc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.74
+Cc1ccc(cc1N(=O)=O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.82
+c1c(Br)ccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.4
+CNC(=O)Oc1cccc(N=CN(C)C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.34
+COc2cnc1ncncc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.14
+CC(=C)C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.03
+CC(C)=CCCC(O)(C)C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.99
+COP(=S)(OC)Oc1ccc(SC)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.57
+OC1CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.44
+O=C1NC(=O)NC(=O)C1(C)CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.16
+OCC(O)C(O)C(O)C(O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.06
+Cc1ccc(cc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.62
+CCNc1nc(Cl)nc(NC(C)C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.85
+NC(=S)Nc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.77
+CCCC(=O)CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+CC(=O)C(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.72
+Oc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.7
+Cc1cccc(N)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+ClC(Cl)(Cl)C#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.17
+CNc2cnn(c1cccc(c1)C(F)(F)F)c(=O)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.05
+CCCCCCCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.3
+CCN(CC)c1nc(Cl)nc(NC(C)C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.79
+CCOC(=O)c1ccc(N)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.62
+Clc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.59
+Oc1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.62
+CCN2c1ncccc1N(C)C(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.62
+CSC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.45
+Cc1ccccc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.23
+CCOC(=O)N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.85
+CC(C)C(O)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.22
+c1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.6
+CCNc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.7
+O=C1NC(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.1
+CCOP(=S)(OCC)SC(CCl)N1C(=O)c2ccccc2C1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.34
+COc1ccc(cc1)C(c2ccc(OC)cc2)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.89
+O=C1N(COC(=O)CCCC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.68
+CN(C)C(=O)Nc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.89
+CC(=O)OCC(=O)C3(O)C(CC4C2CCC1=CC(=O)C=CC1(C)C2(F)C(O)CC34C)OC(C)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.13
+CCCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.37
+Brc1cc(Br)c(Br)cc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.98
+CC(C)CC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.74
+CCSC(=O)N(CC)C1CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.4
+COc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.78
+CC1(C)C(C=C(Br)Br)C1C(=O)OC(C#N)c2cccc(Oc3ccccc3)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.4
+CCC(C)C1(CC=C)C(=O)NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.02
+COP(=S)(OC)Oc1ccc(N(=O)=O)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.04
+Ic1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.55
+OCC(O)C(O)C(O)C(O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.09
+CCS,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.6
+ClCC(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.48
+NC(=O)c1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.82
+Cc1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.33
+O=C1NC(=O)NC(=O)C1(C(C)C)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.77
+CCc1ccccc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.21
+CCCCCCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.0
+O=C1NC(=O)NC(=O)C1(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.4
+C(Cc1ccccc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.62
+ClC(Cl)C(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.74
+CCN2c1cc(OC)cc(C)c1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.15
+Cc1ccc2c(ccc3ccccc32)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.84
+CCCCOC(=O)c1ccccc1C(=O)OCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.4
+COc1c(O)c(Cl)c(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.02
+CCN(CC)C(=O)C(=CCOP(=O)(OC)OC)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.52
+COc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.41
+CCCCCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.12
+Clc1cc(c(Cl)c(Cl)c1Cl)c2cc(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-9.16
+CCCCCCCCCCCCCCCCCCCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.33
+CCN2c1ccccc1N(C)C(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.32
+CC(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.29
+Nc1ccc(cc1)S(N)(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.34
+CCCN(CCC)c1c(cc(cc1N(=O)=O)C(C)C)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.49
+ClC1C(Cl)C(Cl)C(Cl)C(Cl)C1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.64
+CCOP(=S)(NC(C)C)Oc1ccccc1C(=O)OC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.19
+Clc1cccc(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.0
+ClC(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.31
+O=N(=O)c1cc(Cl)c(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.2
+OC1CCCCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.29
+CC1(O)CCC2C3CCC4=CC(=O)CCC4(C)C3CCC21C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.0
+CCOc1ccc(NC(N)=O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.17
+C/C1CCC(\C)CC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.47
+COC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.24
+COc1ccc(C=CC)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.13
+CCCCCCCCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.0
+O=c1cc[nH]c(=O)[nH]1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.49
+Clc1cc(Cl)c(cc1Cl)c2cccc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.21
+CCC1(C(=O)NC(=O)NC1=O)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.32
+Clc1ccc(cc1)c2cccc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.29
+CC(C)c1ccc(NC(=O)N(C)C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.54
+CCC(C)(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.04
+CCCOC(=O)CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.75
+Cc1c(cc(cc1N(=O)=O)N(=O)=O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.22
+CC(C)OP(=S)(OC(C)C)SCCNS(=O)(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.2
+C1CCCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.51
+CCCOC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.49
+CC(C)c1ccccc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.76
+Nc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.37
+CC(C)CC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.26
+CCOC2Oc1ccc(OS(C)(=O)=O)cc1C2(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.42
+CN(C)C(=O)Nc1cccc(c1)C(F)(F)F,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.43
+c3ccc2nc1ccccc1cc2c3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.67
+CC12CC(=O)C3C(CCC4=CC(=O)CCC34C)C2CCC1(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.11
+OCC1OC(O)C(O)C(O)C1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.74
+Cc1cccc(O)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.68
+O=N(=O)c1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.39
+CCCCCCCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.1
+CN(C)C(=O)Nc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+CCCOCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.66
+CC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.43
+Cc1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.77
+ClC(Br)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.9
+CCC(C(CC)c1ccc(O)cc1)c2ccc(O)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.43
+CCOC(=O)CC(SP(=S)(OC)OC)C(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.37
+ClCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.39
+C/C=C/C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.32
+CON(C)C(=O)Nc1ccc(Br)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.92
+Cc1c2ccccc2c(C)c3ccccc13,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.57
+CCCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.87
+CC(=O)Nc1ccc(F)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.78
+CCc1cccc(CC)c1N(COC)C(=O)CCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.26
+C1CCC=CC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.59
+CC12CC(O)C3C(CCC4=CC(=O)CCC34C)C2CCC1(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.09
+c1cncnc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.1
+Clc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.92
+CCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.14
+Clc1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.55
+CCCCN(C)C(=O)Nc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.77
+O=N(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.8
+Ic1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.01
+COc1ccccc1OCC(O)COC(N)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.99
+CCCCOCN(C(=O)CCl)c1c(CC)cccc1CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.19
+Oc1cccc(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+CCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.92
+CCC(=O)Nc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.0
+CCCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.35
+COc1nc(NC(C)C)nc(NC(C)C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.48
+CCCCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.44
+Cc1ccc(N)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.21
+c1ccccc1(OC(=O)NC),Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.8
+CCCC(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.8
+c3ccc2c(O)c1ccccc1cc2c3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.73
+Cc1ccc2cc3ccccc3cc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.96
+Cc1cccc(C)c1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.2
+CNC(=O)Oc1ccc(N(C)C)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.36
+CCCCCCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.74
+CCCC(=O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.83
+Oc1c(Br)cc(C#N)cc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.33
+Clc1ccc(cc1Cl)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.39
+Oc1cccc2ncccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.54
+CCOc2ccc1nc(sc1c2)S(N)(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.81
+Oc1c(Cl)c(Cl)c(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.28
+ClCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.89
+CCC1(CC)C(=O)NC(=O)N(C)C1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.23
+CC(=O)OCC(=O)C3CCC4C2CCC1=CC(=O)CCC1(C)C2CCC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.63
+NC(=O)NCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.95
+CN(C)C(=O)Nc1ccc(C)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.48
+CON(C)C(=O)Nc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.59
+OC1CCCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.88
+CS(=O)(=O)c1ccc(cc1)C(O)C(CO)NC(=O)C(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.15
+Oc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.74
+C1CCOC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.49
+Nc1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+Clc1cccc(c1Cl)c2cccc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.28
+CCCCC1C(=O)N(N(C1=O)c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.81
+Cc1c(cccc1N(=O)=O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.0
+CC(=O)C1CCC2C3CCC4=CC(=O)CCC4(C)C3CCC12C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.42
+CCN(CC)c1nc(Cl)nc(n1)N(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.41
+c1(Br)c(Br)cc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.5
+OC3N=C(c1ccccc1)c2cc(Cl)ccc2NC3=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.95
+O=C1NC(=O)NC(=O)C1(C(C)CCC)CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.36
+c1(O)c(C)ccc(C(C)C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.08
+CCN(CC)C(=S)SSC(=S)N(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.86
+C1CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.1
+CN(C)C=Nc1ccc(Cl)cc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.86
+CCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.39
+CCSCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.34
+ClCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.06
+CCC(C)(C)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.51
+ClCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.32
+Nc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.37
+CCN2c1ncccc1N(CC)C(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.86
+Clc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.38
+CCCCCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.05
+Brc1ccc(I)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.56
+CCC(C)(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.36
+CCCCCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.64
+NC(=O)NC1NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+ClC(Cl)C(c1ccc(Cl)cc1)c2ccc(Cl)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.2
+CC(=O)OC3CCC4C2CCC1=CC(=O)CCC1(C)C2CCC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.18
+Clc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.93
+CCCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.89
+CCCC1CCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.74
+Oc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.25
+CC1(C)C(C=C(Cl)Cl)C1C(=O)OC(C#N)c2cccc(Oc3ccccc3)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.02
+CCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.6
+CCN(CC)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.03
+Fc1cccc(F)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.0
+ClCCC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.29
+CC(C)(C)Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.15
+O=C1NC(=O)NC(=O)C1(CC)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.32
+Clc1ccccc1I,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.54
+CNC(=O)Oc1cccc2CC(C)(C)Oc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.8
+Cc1cccc(C)c1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.29
+CC(C)C(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.18
+c1ccccc1C(O)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.55
+CCCCCCCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.69
+COP(=S)(OC)Oc1ccc(cc1Cl)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.31
+CC(C)CBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.43
+CCI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+CN(C)C(=O)Oc1nc(nc(C)c1C)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.95
+CCCCCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.81
+CCCC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.74
+CCc1cccc(C)c1N(C(C)COC)C(=O)CCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.73
+ON=Cc1ccc(o1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.19
+BrC(Br)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.91
+COP(=O)(OC)C(O)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.22
+CCOP(=S)(OCC)SCn1c(=O)oc2cc(Cl)ccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.23
+OCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.4
+Oc1ccc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.09
+CC(C)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.59
+CC(C)CC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.74
+O=N(=O)c1cc(cc(c1)N(=O)=O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.89
+CN2C(=O)CN=C(c1ccccc1)c3cc(ccc23)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.8
+CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.94
+Nc2cccc3nc1ccccc1cc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.22
+OC(c1ccc(Cl)cc1)(c2ccc(Cl)cc2)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.67
+CCOP(=S)(OCC)SC(CCl)N2C(=O)c1ccccc1C2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.34
+Brc1ccc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.07
+Oc1ccc(cc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.48
+CCOC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+CCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.24
+COc1ncnc2nccnc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.11
+CCCCC(C)(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+Clc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.27
+O=C1N(COC(=O)C)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.47
+CSCS(=O)CC(CO)NC(=O)C=Cc1c(C)[nH]c(=O)[nH]c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.98
+Cc1c[nH]c2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.42
+COc2ncc1nccnc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.11
+CC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.26
+CCOC(=O)NCCOc2ccc(Oc1ccccc1)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.7
+ClCC(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.18
+CCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.0
+Clc1cc(Cl)cc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.48
+O=Cc1ccco1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.1
+CC(C)CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.51
+CC(=C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.33
+O=Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.19
+CC(=C)C(=C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.4
+CCOC(=O)CCN(SN(C)C(=O)Oc1cccc2CC(C)(C)Oc21)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.71
+CC1CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.85
+NC(=N)NS(=O)(=O)c1ccc(N)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.99
+COC(=O)c1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.83
+CC1CCCO1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.11
+CCCI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.29
+CCNc1nc(NC(C)C)nc(SC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.04
+CCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.62
+CC(=O)C1(O)CCC2C3CCC4=CC(=O)CCC4(C)C3CCC21C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.82
+CCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.29
+Cc1ccc(O)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.19
+Clc1cccc(c1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.77
+Cc2c(N)c(=O)n(c1ccccc1)n2C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.62
+Clc1ccc(c(Cl)c1)c2cc(Cl)ccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.57
+ClC(=C(Cl)C(=C(Cl)Cl)Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.92
+CCNc1nc(NC(C)(C)C)nc(SC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.0
+CCC(C)CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.71
+Cc2ncc1nccnc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.12
+CCCCI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.96
+Brc1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.4
+CC1OC(CC(O)C1O)OC2C(O)CC(OC2C)OC8C(O)CC(OC7CCC3(C)C(CCC4C3CC(O)C5(C)C(CCC45O)C6=CC(=O)OC6)C7)OC8C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.08
+FC(F)(F)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.51
+CCCCCCOC(=O)c1ccccc1C(=O)OCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.14
+Clc1ccc(c(Cl)c1)c2ccc(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.8
+Clc1ccc(c(Cl)c1Cl)c2ccc(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.01
+CC(=O)CC(c1ccccc1)c3c(O)c2ccccc2oc3=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.89
+c1ccccc1C(O)C(O)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.93
+COC(=O)c1ccccc1C(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.66
+CCCCCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.39
+CCSSCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.42
+CCOCCOCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.77
+Clc1cc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.56
+Nc1ccc(cc1)c2ccc(N)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.7
+CCCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.73
+CCCCc1c(C)nc(NCC)[nH]c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.03
+O=C1NC(=O)NC(=O)C1(CC)C(C)CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.39
+Nc1ccccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.52
+COc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.78
+CCCCN(CC)C(=O)SCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.53
+CCCCOC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.37
+CC12CC(O)C3C(CCC4=CC(=O)C=CC34C)C2CCC1(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.18
+BrC(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.54
+Oc1ccc(C=O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.96
+CBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.79
+CC(=O)CC(c1ccc(Cl)cc1)c2c(O)c3ccccc3oc2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.84
+CCc1ccc2ccccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.29
+Nc1c(C)c[nH]c(=O)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.46
+Clc2c(Cl)c(Cl)c(c1ccccc1)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.92
+c1c(NC(=O)c2ccccc2(I))cccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.21
+Fc1ccccc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.7
+Oc1ccc(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.55
+CC1(C)C(C=C(Cl)Cl)C1C(=O)OCc2cccc(Oc3ccccc3)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.29
+O=C1N(COC(=O)CC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.91
+C1CCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.64
+Cc1ccccc1N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.21
+c1(OC)ccc(CC=C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.92
+CN(C)C(=O)Nc1cccc(OC(=O)NC(C)(C)C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.93
+CC(C)C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.73
+Oc1ccccn1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.02
+CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.36
+Clc1ccccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.05
+Sc2nc1ccccc1s2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.18
+Clc1c(Cl)c(Cl)c(c(Cl)c1Cl)c2c(Cl)c(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-11.6
+CC(=O)N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.58
+Cc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.7
+CCN(CC)C(=O)C(C)Oc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.57
+CC(O)C(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.62
+CCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.36
+CC2=CC(=O)c1ccccc1C2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.03
+c1ccc2c(c1)ccc3ccccc32,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.26
+Cc1ccnc(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.38
+CCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.01
+BrCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.17
+CC1CC2C3CCC4=CC(=O)C=CC4(C)C3(F)C(O)CC2(C)C1(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.59
+Cc1ccc2cc(C)ccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.89
+CCSC(=O)N(CC(C)C)CC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.68
+O=N(=O)OCC(CON(=O)=O)ON(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.22
+Nc1cccc(c1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.19
+CCCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.03
+Nc3cc2c1ccccc1ccc2c4ccccc34,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.2
+O=C3CN=C(c1ccccc1)c2cc(ccc2N3)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.8
+CCNC(=S)NCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.46
+Oc1cc(Cl)cc(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.67
+CCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.34
+Nc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.41
+Cc1cccc2c(C)cccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.68
+NS(=O)(=O)c2cc1c(NCNS1(=O)=O)cc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.63
+CCCCCOC(=O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.28
+CCNc1nc(NC(C)C)nc(OC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.08
+CCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.09
+CCC#CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.99
+CC1OC(CC(O)C1O)OC2C(O)CC(OC2C)OC8C(O)CC(OC7CCC3(C)C(CCC4C3CCC5(C)C(CCC45O)C6=CC(=O)OC6)C7)OC8C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.29
+CCC(=C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.73
+Oc1cccc2cccnc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.42
+Brc1cc(Br)cc(Br)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.6
+COP(=S)(OC)Oc1cc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.72
+COc1cc(CC=C)ccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.56
+O=C1NC(=O)NC(=O)C1(C(C)C)CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.71
+CCOC(C)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.43
+CCCCOCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.42
+Clc1c(Cl)c(Cl)c(N(=O)=O)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.82
+c1ccc2ncccc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+COC(=O)c1cc(O)c(O)c(O)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.24
+Clc2ccc1oc(=O)[nH]c1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.83
+Clc1ccc(c(Cl)c1)c2c(Cl)c(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.92
+ClCCCCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.62
+Fc1cccc(Br)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.67
+Clc1ccc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.63
+CC(C)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.65
+CCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.94
+Clc1ccc(Cl)c(c1)c2cc(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.68
+Nc1cc[nH]c(=O)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.15
+FC(F)(Cl)C(F)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.04
+CCC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.28
+ClC(Cl)C(c1ccc(Cl)cc1)c2ccccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.51
+COc1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+CCC(C)c1cc(cc(N(=O)=O)c1O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.38
+OCC(O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.12
+COc1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+CCOP(=S)(OCC)Oc1nc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.67
+Cc1c2ccccc2cc3ccccc13,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.89
+Cc1cc(=O)n(c2ccccc2)n1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.71
+CCCCOC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.99
+Cc2cnc1cncnc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+CCNc1nc(Cl)nc(NCC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.55
+CN(C)C(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.11
+CSc1nc(nc(n1)N(C)C)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.68
+C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.4
+CC(C)(C)CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.5
+O=C1NC(=O)NC(=O)C1(CC)CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.61
+Oc1ccc(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.67
+COc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.85
+c1ccc(Cl)cc1C(c2ccc(Cl)cc2)(O)C(=O)OC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.53
+CC13CCC(=O)C=C1CCC4C2CCC(C(=O)CO)C2(CC(O)C34)C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.85
+COc2ccc(Oc1ccc(NC(=O)N(C)C)cc1)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.16
+CCc1ccc(C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.11
+CC(C)SC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.24
+O=N(=O)c1cccc(c1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.29
+CCOP(=S)(OCC)SCSP(=S)(OCC)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.54
+CCC1(C(C)C)C(=O)NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.21
+CC(=O)OCC(=O)C3(O)CCC4C2CCC1=CC(=O)CCC1(C)C2C(=O)CC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.21
+Cc1ncc(N(=O)=O)n1CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.22
+Nc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.66
+CCCC(C)(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.52
+c1ccoc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.82
+COCCCNc1nc(NC(C)C)nc(SC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.93
+CC(C)(C)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.66
+CC(=O)CCC1C(=O)N(N(C1=O)c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.27
+CC(=O)OCC(=O)C3(O)CCC4C2CCC1=CC(=O)C=CC1(C)C2C(O)CC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.37
+CCCOC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.39
+CC(C)OC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.55
+Brc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.55
+CCOC(=O)c1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.35
+O=C1N(COC(=O)CCC)C(=O)C(N1)(c2ccccc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.07
+CCC(=O)OC3CCC4C2CCC1=CC(=O)CCC1(C)C2CCC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.37
+ClC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.75
+CN(C)C(=O)C(c1ccccc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.98
+BrC(Br)(Br)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.14
+CCN2c1cc(N(C)C)cc(C)c1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.87
+O=C1NC(=O)c2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.61
+COC(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.85
+Cn1ccc(=O)[nH]c1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.81
+CCCCC1C(=O)N(N(C1=O)c2ccc(O)cc2)c3ccccc3,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.73
+Clc1ccc(Cl)c(c1)c2cccc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.47
+CN(C)C(=O)Nc1ccc(Cl)c(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.8
+CCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.88
+Oc1ccccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.06
+c1cccc2c3c(C)cc4ccccc4c3ccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.59
+CCOc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.33
+CCOC(=O)C=Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.0
+Cc1[nH]c(=O)n(c(=O)c1Cl)C(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.48
+Clc1ccccc1C2=NCC(=O)Nc3ccc(cc23)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.5
+Cc1ccc(cc1)S(=O)(=O)N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.74
+CC(OC(=O)Nc1cccc(Cl)c1)C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.62
+CCCCCC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.08
+CC1(C)C(C=C(Cl)C(F)(F)F)C1C(=O)OC(C#N)c2cccc(Oc3ccccc3)c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.18
+CN2C(=O)CN=C(c1ccccc1)c3cc(Cl)ccc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.75
+CCC(O)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.7
+CCOP(=S)(OCC)Oc1ccc(cc1)S(C)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.3
+CC12CCC3C(CCC4=CC(=O)CCC34C)C2CCC1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.02
+CCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.53
+Oc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.22
+C/C1CCCCC1\C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.3
+C1Cc2c3c1cccc3cc4c2ccc5ccccc54,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.85
+CCCCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.45
+COP(=O)(NC(C)=O)SC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.54
+CCCCSP(=O)(SCCCC)SCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.14
+NS(=O)(=O)c2cc1c(NC(NS1(=O)=O)C(Cl)Cl)cc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.68
+CC=C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.56
+Cc1ccc(C)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.31
+Oc1cc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.21
+CCCC(C)(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.98
+CCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.24
+c1ccc2cc3ccccc3cc2c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.35
+NNc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.07
+CCC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.58
+C1CCCCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.15
+O=C1NC(=O)NC(=O)C1(CC=C)CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.08
+ClC(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.17
+Sc1nccc(=O)[nH]1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.27
+CC1=CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.27
+CCCCC(CC)C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.13
+O=C1NC(=O)NC(=O)C1(CC)CCC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.66
+CCC(CC)C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.52
+CCCOCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.62
+CCCCCCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.84
+Oc1c(Cl)ccc(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.64
+NC(=O)N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.96
+CCCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.64
+Brc1cccc(Br)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.54
+CCCCCCCCCCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.4
+CC(=O)Nc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.33
+c1nccc(C(=O)NN)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.01
+OC1C=CC2C1C3(Cl)C(=C(Cl)C2(Cl)C3(Cl)Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.46
+CC(C)CCOC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.52
+CC(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.28
+CCOP(=O)(OCC)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.43
+COc2cnc1cncnc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.91
+ClC2=C(Cl)C3(Cl)C1C=CCC1C2(Cl)C3(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.64
+CC(C)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.62
+OCC(O)C(O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.7
+CCCOC(=O)c1ccc(N)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.45
+CNC(=O)C=C(C)OP(=O)(OC)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.65
+CCC(C)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.28
+CCCCc1c(C)nc(NCC)nc1OS(=O)(=O)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.16
+O2c1ccccc1N(CC)C(=O)c3ccccc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.68
+C1CCOCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.03
+CCCCCC#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.01
+c1cc2ccc(OC)c(CC=C(C)(C))c2oc1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.31
+c1cc(C)cc2c1c3cc4cccc5CCc(c45)c3cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.92
+CCOC(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.32
+ClCC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.0
+CC34CCC1C(CCc2cc(O)ccc12)C3CCC4(O)C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.3
+CCCCCCCCCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.69
+CCCSCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.58
+CCCCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.08
+CCCC/C=C/C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.82
+Cc1ncc(N(=O)=O)n1CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.26
+CCCCCC1CCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.08
+Clc1ccc(Cl)c(c1)c2c(Cl)c(Cl)cc(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.42
+O=C1NC(=O)NC(=O)C1(CC)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.15
+CC(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.0
+CON(C)C(=O)Nc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.57
+CN(C)C(=O)OC1=CC(=O)CC(C)(C)C1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+Cc1ccc(Br)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.19
+CCOCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.09
+CCCCN(CC)c1c(cc(cc1N(=O)=O)C(F)(F)F)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.53
+Cc1cc(C)c(O)c(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.05
+c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.64
+Clc1ccc(I)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.03
+COc1ccc(NC(=O)N(C)C)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.56
+CC(C)N(C(=O)CCl)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.48
+C=Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.82
+COCOC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.48
+Cc1ccccc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.8
+CCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.47
+Oc1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.17
+CC34CCC1C(CCc2cc(O)ccc12)C3CC(O)C4O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.95
+O=C1CNC(=O)N1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.4
+c1(O)cc(O)ccc1CCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.59
+C=CCS(=O)SCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.83
+CCOP(=S)(OCC)Oc2ccc1oc(=O)c(Cl)c(C)c1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.38
+Cc1c(C)c2c3ccccc3ccc2c4ccccc14,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.01
+CCCCC(=O)OC3(C(C)CC4C2CCC1=CC(=O)C=CC1(C)C2(F)C(O)CC34C)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.71
+Oc1c(Cl)cc(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.1
+Clc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.04
+Clc1ccc(cc1)C(c2ccc(Cl)cc2)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.15
+CC(C)COC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.01
+c1ccccc1SC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.39
+CCN2c1nc(C)cc(C(F)(F)F)c1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.21
+CCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.84
+COC(=O)c1cccnc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.46
+Clc1ccc(cc1Cl)c2cc(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.82
+CCNc1nc(Cl)nc(NC(C)(C)C#N)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.15
+CCCCC(CC)COC(=O)c1ccccc1C(=O)OCC(CC)CCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.96
+CCc1ccccn1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.51
+COP(=O)(OC)OC(Br)C(Cl)(Cl)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.28
+c1ccc(cc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.34
+Clc1cc(Cl)c(c(Cl)c1)c2c(Cl)cc(Cl)cc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.71
+CN(C)c1nc(nc(n1)N(C)C)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.36
+CC(C)CC(C)(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.92
+OCC1OC(O)(CO)C(O)C1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.64
+Cc1cc(C)cc(O)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.4
+ClCC#CCOC(=O)Nc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.37
+CC(=O)Nc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.84
+Clc1ccc(Cl)c(c1)c2c(Cl)c(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.94
+CCC(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.55
+CNc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.28
+C=CCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.09
+CC(=O)OCC(=O)C1(O)CCC2C3CCC4=CC(=O)CCC4(C)C3C(O)CC21C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.88
+Cc1cc(cc(N(=O)=O)c1O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.46
+OC3N=C(c1ccccc1Cl)c2cc(Cl)ccc2NC3=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.6
+Oc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.7
+Clc1cccc(Br)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.21
+O=C1NC(=O)NC(=O)C1(C)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.23
+OCCOc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.7
+C(c1ccccc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.08
+CCCCCC(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.98
+CC(C)Nc1nc(Cl)nc(NC(C)C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.43
+CCCC(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.11
+CCCCC(C)(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.08
+CCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.77
+O=C1NC(=O)NC(=O)C1(CC)CC=C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.25
+ClC1C=CC2C1C3(Cl)C(=C(Cl)C2(Cl)C3(Cl)Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.32
+CCC(C)C1(CC(Br)=C)C(=O)NC(=O)NC1=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.65
+CC1(C)C(C(=O)OC(C#N)c2cccc(Oc3ccccc3)c2)C1(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.03
+COC(C)(C)CCCC(C)CC=CC(C)=CC(=O)OC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.19
+CCOC(=O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.66
+CSc1nc(NC(C)C)nc(NC(C)C)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.1
+CC(C#C)N(C)C(=O)Nc1ccc(Cl)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.9
+Cc1cc2ccccc2cc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.72
+Clc1ccc(cc1)c2cc(Cl)ccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.25
+Clc1ccc(c(Cl)c1)c2cc(Cl)c(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.39
+NC(N)=NC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.31
+ClC(Cl)(Cl)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.0
+Clc1cccc(Cl)c1c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.21
+COc1ccc(C=O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.49
+CC(=O)Nc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.69
+CCCCCCC(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.74
+CC(=O)Nc1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.03
+COC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.46
+CCCC(O)C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.59
+CCCCOCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.85
+CCCCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.8
+CCN2c1nc(N(C)(CCO))ccc1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.36
+CCCC(C)(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.49
+Nc1nc(=O)[nH]cc1F,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.97
+CCCCOc1ccc(C(=O)OCC)c(c1)N(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.84
+CCCCCC(C)(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.72
+Cc1c(C)c(C)c(C)c(C)c1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.23
+CC(C)c1ccc(C)cc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.22
+c2cnc1ncncc1n2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.02
+CCOP(=S)(OCC)Oc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.66
+C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.9
+O=N(=O)c1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.54
+CCC(C)C(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.67
+CN(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.26
+CC(C)N(C(C)C)C(=O)SCC(Cl)=C(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.88
+C=CCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.68
+c2ccc1[nH]ccc1c2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.52
+CCCCC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.23
+Cc1cccc(C)c1NC(=O)c2cc(c(Cl)cc2O)S(N)(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.79
+CCC1CCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.25
+CCCCCCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.58
+CC(C)OC(=O)Nc1cccc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.38
+CCN2c1nc(Cl)ccc1N(C)C(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.11
+CNC(=O)Oc1cccc2ccccc12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.22
+C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.29
+Cc1cncc(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.38
+CCOC(=O)N(C)C(=O)CSP(=S)(OCC)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.52
+CC(O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.92
+CC(Cl)CCl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.6
+CCCC=C(CC)C=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.46
+CCOP(=S)(OCC)SCCSCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.23
+CC(=O)OC3(C)CCC4C2CCC1=CC(=O)CCC1(C)C2CCC34C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.28
+Clc1ccc(cc1)c2c(Cl)cccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.14
+Oc1cc(Cl)ccc1Oc2ccc(Cl)cc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.46
+c1(C(=O)OCCCCCC(C)(C))c(C(=O)OCCCCCC(C)(C))cccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.64
+CC12CC(O)C3C(CCC4=CC(=O)CCC34C)C2CCC1C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.24
+Cc1cc(C)cc(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.4
+CCCCCCCCOC(=O)c1ccccc1C(=O)OCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.11
+CCCCCCCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.35
+Clc1cccc(Cl)c1c2c(Cl)cccc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.39
+O=C1NC(=O)NC(=O)C1(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.74
+CC(C)I,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.09
+O=N(=O)c1ccccc1N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.1
+CC(C)C(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.12
+CCCCCCCCCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.4
+CCCCCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.05
+CCCCCCCCC(=O)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.38
+Fc1ccc(F)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.97
+CCCN(CCC)c1c(cc(cc1N(=O)=O)C(F)(F)F)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.68
+CCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.1
+c1c(NC(=O)OC(C)C(=O)NCC)cccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.83
+CC(C)=CC3C(C(=O)OCc2cccc(Oc1ccccc1)c2)C3(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.24
+CN(C)C(=O)NC1CCCCCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.22
+CCCCCCCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.06
+CN(C)c2c(C)n(C)n(c1ccccc1)c2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.36
+CCC(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.24
+Cc1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.49
+CC(C)CCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.14
+CC34CCC1C(CCC2=CC(=O)CCC12O)C3CCC4(O)C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.57
+CC(C)OC(=O)C(O)(c1ccc(Br)cc1)c2ccc(Br)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.93
+Nc2cnn(c1ccccc1)c(=O)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.88
+CCC(C)(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.15
+Cc1ccc(O)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.73
+CCOC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.15
+CN(C)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.92
+CCCCS,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.18
+ClC(=C(Cl)Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.54
+CCC(=O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.28
+C=CC#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.15
+CC1CC2C3CC(F)C4=CC(=O)C=CC4(C)C3(F)C(O)CC2(C)C1(O)C(=O)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.61
+CCCCC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.8
+CCNc1nc(NC(C)(C)C)nc(OC)n1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.24
+CCCCC(C)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.16
+BrCCBr,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.68
+CNC(=O)Oc1ccccc1C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.86
+COc1ccccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.46
+COP(=S)(OC)Oc1cc(Cl)c(Br)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-6.09
+ClC(Cl)CC(=O)NC2=C(Cl)C(=O)c1ccccc1C2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.03
+ClC(Cl)C(c1ccc(Cl)cc1)c2ccc(Cl)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.2
+COC(=O)C=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.22
+CN(C)C(=O)Nc2ccc(Oc1ccc(Cl)cc1)cc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.89
+CC(C)c1ccc(C)cc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.77
+Oc1c(Cl)cccc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.79
+OC1C(O)C(O)C(O)C(O)C1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.35
+Cn2c(=O)n(C)c1ncn(CC(O)CO)c1c2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.17
+OCC(NC(=O)C(Cl)Cl)C(O)c1ccc(cc1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.11
+CCC(O)(CC)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.85
+Brc1ccccc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.5
+Oc1c(Cl)cc(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.34
+CCCN(CCC)c1c(cc(cc1N(=O)=O)S(N)(=O)=O)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.16
+CC(C)C(=O)C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+O=C1NC(=O)NC(=O)C1(C(C)C)CC=C(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.59
+Cn1cnc2n(C)c(=O)n(C)c(=O)c12,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.88
+Cc1ccc(O)cc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.38
+O(c1ccccc1)c2ccccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.96
+Clc1cc(Cl)c(cc1Cl)c2cc(Cl)c(Cl)cc2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.56
+NC(=O)c1cccnc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.61
+Sc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.12
+CNC(=O)Oc1cc(C)cc(C)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.58
+CSSC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.44
+NC(=O)c1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.96
+Clc1ccccc1Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.19
+CCCCC(O)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.47
+CCN2c1nc(C)cc(C)c1NC(=O)c3cccnc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.55
+Oc1cc(Cl)cc(Cl)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.34
+Cc1cccc2c1ccc3ccccc32,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-5.85
+CCCCC(CC)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.11
+CC(C)N(C(C)C)C(=O)SCC(=CCl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.29
+Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.21
+Clc1cccc(n1)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.76
+CN(C)C(=S)SSC(=S)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.9
+CCCCCCCCCCO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.63
+CCC(C)(C)CC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.23
+CNC(=O)C(C)SCCSP(=O)(OC)(OC),Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.14
+Oc1cc(Cl)c(Cl)c(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.15
+CCCC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.01
+CC4CC3C2CCC1=CC(=O)C=CC1(C)C2(F)C(O)CC3(C)C4(O)C(=O)COC(C)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.9
+CCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.57
+COc1ccccc1O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.96
+CC1CC2C3CCC(O)(C(=O)C)C3(C)CC(O)C2(F)C4(C)C=CC(=O)C=C14,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.1
+ClC(Cl)C(Cl)(Cl)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.6
+CCOC(=O)c1ccccc1C(=O)OCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.35
+CC(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.1
+CC(C)Cc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.12
+ICI,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.34
+CCCC(O)CCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.4
+CCCCCOC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.89
+Oc1c(Cl)c(Cl)cc(Cl)c1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.37
+CCCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.37
+FC(F)(Cl)C(F)(F)Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.74
+CC=CC=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.32
+CN(C)C(=O)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.94
+Cc1cc(C)c(C)cc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.59
+CC(=O)OC3(CCC4C2CCC1=CC(=O)CCC1C2CCC34C)C#C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.8
+CCOP(=S)(OCC)N2C(=O)c1ccccc1C2=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.35
+c1ccccc1NC(=O)c2c(O)cccc2,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.59
+CCN(CC)C(=S)SCC(Cl)=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.39
+ClCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.06
+CC(=O)Nc1cc(NS(=O)(=O)C(F)(F)F)c(C)cc1C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.24
+CC/C=C\C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.54
+CNC(=O)ON=C(CSC)C(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.62
+c1(C(C)(C)C)cc(C(C)(C)C)cc(OC(=O)NC)c1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.24
+CCCCCCCCCCCCCCCCCCCC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-8.17
+CCC(CC)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.17
+Oc1ccncc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,1.02
+Cl\C=C/Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.3
+CC1CCCC1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.3
+CC(C)CC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.8
+O2c1ccc(N)cc1N(C)C(=O)c3cc(C)ccc23,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.93
+CC(C)(C)CO,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-0.4
+CC=C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.08
+Oc1ccc(Cl)cc1Cc2cc(Cl)ccc2O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.95
+CCCCCCC(C)O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.09
+CCCCc1ccccc1,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.06
+CC(C)COC(=O)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.21
+CC(C)C(C)(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.36
+Clc1ccc(c(Cl)c1Cl)c2c(Cl)cc(Cl)c(Cl)c2Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-7.66
+N#Cc1ccccc1C#N,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.38
+Cc1cccc(c1)N(=O)=O,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-2.44
+FC(F)(F)C(Cl)Br,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-1.71
+CNC(=O)ON=C(SC)C(=O)N(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,0.11
+CCSCCSP(=S)(OC)OC,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.09
+CCC(C)C,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-3.18
+COP(=O)(OC)OC(=CCl)c1cc(Cl)c(Cl)cc1Cl,Solubility (logS) can be approximated by negative LogP -0.01 * (MPt – 25) + 0.5 . What is the logS of this molecule?,-4.52