TABLE S1 Comparison of experimental and predicted values of gas to heptane solvation enthalpy (ΔHSolv in units of kJ mole-1) for training and test sets
ΔHSolv (SVM) / ΔHSolv (ANN) / ΔHSolv (PLS) / ΔHSolv (EXP) / Name / NumberTraining set
-3.83 / -4.35 / -2.36 / -3.81 / Methane / 1
-27.25 / -27.33 / -29.04 / -26.53 / Pentane / 2
-31.97 / -32.13 / -33.75 / -31.55 / Hexane / 3
-35.95 / -37.07 / -38.36 / -36.57 / Heptane / 4
-46.18 / -47.10 / -49.23 / -46.40 / Nonane / 5
-52.29 / -52.20 / -54.50 / -51.38 / Decane / 6
-79.81 / -78.84 / -75.84 / -80.92 / Hexadecane / 7
-36.03 / -36.75 / -37.06 / -35.19 / 3-Ethylpentane / 8
-31.64 / -31.81 / -32.95 / -30.05 / 2-Methylpentane / 9
-29.56 / -31.16 / -31.35 / -27.85 / 2,2-Dimethylbutane / 10
-30.45 / -30.72 / -32.88 / -29.30 / 2,3-Dimethylbutane / 11
-36.07 / -40.07 / -38.78 / -35.06 / 2,2,4-Trimethylpentane / 12
-31.75 / -32.91 / -36.09 / -32.29 / Cyclohexane / 13
-38.23 / -36.84 / -41.14 / -37.81 / Cycloheptane / 14
-51.19 / -48.70 / -45.60 / -52.10 / Cyclodecane / 15
-32.22 / -32.99 / -35.91 / -31.39 / Methylcyclopentane / 16
-40.28 / -40.94 / -44.68 / -39.76 / cis-1,2-Dimethylcyclohexane / 17
-40.14 / -41.27 / -42.18 / -38.69 / trans-1,2-Dimethylcyclohexane / 18
-49.75 / -49.44 / -58.76 / -50.82 / cis-Decalin / 19
-49.22 / -50.57 / -53.43 / -49.95 / trans-Decalin / 20
-56.92 / -58.86 / -64.51 / -57.84 / Bicyclohexyl / 21
-52.24 / -50.25 / -45.62 / -52.80 / Tetralin / 22
-31.18 / -31.26 / -33.93 / -30.38 / 1-Hexene / 23
-40.54 / -41.48 / -44.33 / -40.04 / 1-Octyne / 24
-41.36 / -41.00 / -40.31 / -42.63 / 2-Octyne / 25
-20.61 / -22.45 / -22.60 / -20.19 / Propanal / 26
-32.02 / -31.98 / -34.47 / -31.15 / Pentanal / 27
-35.83 / -36.82 / -39.94 / -36.45 / Hexanal / 28
-41.28 / -41.66 / -37.37 / -41.59 / Heptanal / 29
-51.13 / -51.28 / -46.96 / -50.84 / Nonanal / 30
-26.87 / -26.45 / -28.39 / -26.30 / 2-Methylpropanal / 31
-27.05 / -26.38 / -24.66 / -26.53 / 2-Butanone / 32
-40.57 / -41.13 / -37.58 / -41.09 / 2-Heptanone / 33
-40.60 / -41.52 / -38.81 / -41.51 / 4-Heptanone / 34
-51.10 / -50.91 / -54.56 / -50.08 / 5-Nonanone / 35
-42.85 / -39.40 / -38.68 / -42.13 / 2,2,4,4-Tetramethyl-3-pentanone / 36
-36.89 / -37.21 / -35.64 / -37.78 / Cyclohexanone / 37
-37.65 / -38.54 / -35.39 / -38.72 / Butyl acetate / 38
-43.60 / -43.04 / -40.48 / -44.52 / Pentyl acetate / 39
-52.16 / -52.57 / -47.62 / -53.08 / Ethyl benzoate / 40
-32.09 / -32.84 / -30.30 / -33.11 / Methyl methacrylate / 41
-25.86 / -27.37 / -27.66 / -24.31 / Diethyl ether / 42
-45.92 / -46.73 / -48.84 / -44.22 / Dibutyl ether / 43
-31.32 / -33.09 / -33.79 / -30.96 / Diisopropyl ether / 44
-47.20 / -46.12 / -42.85 / -46.11 / Methyl heptyl ether / 45
-34.64 / -36.45 / -35.37 / -32.28 / Ethyl tert-butyl ether / 46
-33.71 / -34.90 / -31.69 / -34.61 / Methyl tert-amyl ether / 47
-28.36 / -29.97 / -30.57 / -29.32 / Tetrahydrofuran / 48
-31.07 / -33.33 / -34.99 / -31.59 / 2-Methyltetrahydrofuran / 49
TABLE S1 Continued
ΔHSolv (SVM) / ΔHSolv (ANN) / ΔHSolv (PLS) / ΔHSolv (EXP) / Name / Number-53.14 / -54.32 / -59.02 / -54.12 / 2,5,8,11-Tetraoxododecane / 50
-40.75 / -44.32 / -43.26 / -39.94 / 2,5,8-Trioxanonane / 51
-34.99 / -34.47 / -36.91 / -33.14 / Diethoxymethane / 52
-30.85 / -30.71 / -27.31 / -31.76 / 1,2-Dimethoxyethane / 53
-27.95 / -25.16 / -23.84 / -26.06 / Dimethoxymethane / 54
-47.21 / -46.07 / -43.01 / -47.86 / 1-Fluorooctane / 55
-32.03 / -30.97 / -28.16 / -31.21 / Tetrachloromethane / 56
-28.87 / -27.17 / -24.16 / -27.98 / 1,2-Dichloroethane / 57
-48.86 / -51.19 / -47.03 / -50.88 / 1-Chlorooctane / 58
-37.04 / -37.89 / -41.78 / -37.74 / Diiodomethane / 59
-18.85 / -17.51 / -17.25 / -18.60 / Ethanol / 60
-23.27 / -21.94 / -24.39 / -22.10 / 1-Propanol / 61
-26.62 / -26.64 / -29.62 / -27.87 / Butan-1-ol / 62
-33.19 / -31.60 / -31.33 / -34.14 / Pentan-1-ol / 63
-37.26 / -36.72 / -36.92 / -38.32 / 1-Hexanol / 64
-46.35 / -46.76 / -44.72 / -47.57 / 1-Octanol / 65
-62.75 / -62.68 / -56.27 / -61.83 / 1-Undecanol / 66
-25.72 / -26.34 / -24.58 / -26.70 / 2-Butanol / 67
-27.32 / -26.36 / -27.13 / -26.60 / 2-Methyl-1-propanol / 68
-34.09 / -31.64 / -32.65 / -35.63 / 3-Methyl-1-butanol / 69
-34.91 / -31.66 / -31.81 / -35.90 / 2-Pentanol / 70
-27.28 / -30.82 / -29.69 / -26.44 / 2-Methyl-2-butanol / 71
-35.75 / -33.73 / -33.11 / -37.21 / Cyclopentanol / 72
-36.20 / -37.61 / -40.10 / -37.50 / Cyclohexanol / 73
-32.61 / -27.50 / -26.82 / -34.22 / 2-Methoxyethanol / 74
-36.36 / -36.72 / -36.06 / -34.45 / Triethylamine / 75
-22.85 / -22.02 / -25.66 / -22.87 / Isopropylamine / 76
-28.80 / -27.17 / -26.04 / -29.97 / Butylamine / 77
-26.51 / -26.97 / -25.70 / -27.89 / sec-Butylamine / 78
-25.98 / -26.36 / -26.48 / -24.98 / tert-Butylamine / 79
-32.45 / -32.18 / -30.69 / -34.12 / Pentylamine / 80
-37.19 / -37.25 / -36.28 / -39.47 / Hexylamine / 81
-47.18 / -47.35 / -44.08 / -49.41 / Octylamine / 82
-58.67 / -57.88 / -55.54 / -58.69 / Decylamine / 83
-40.35 / -41.92 / -35.73 / -39.92 / 3-Methylphenol / 84
-31.23 / -33.24 / -35.73 / -30.54 / Benzene / 85
-45.41 / -43.38 / -41.18 / -46.23 / Mesitylene / 86
-50.18 / -52.53 / -47.95 / -51.82 / Naphthalene / 87
-33.00 / -34.53 / -37.53 / -33.35 / Trifluorotoluene / 88
-43.51 / -45.23 / -40.46 / -44.73 / Nitrobenzene / 86
-39.19 / -41.63 / -37.65 / -41.21 / Anisole / 90
-42.07 / -38.40 / -37.71 / -40.75 / Aniline / 91
-17.04 / -18.30 / -16.28 / -17.56 / Acetonitrile / 92
-19.59 / -18.59 / -16.66 / -18.91 / Difluorodichloromethane / 93
-29.76 / -31.27 / -36.04 / -31.62 / Hexafluorobenzene / 94
-13.24 / -13.74 / -11.31 / -12.84 / Chlorotrifluoromethane / 95
TABLE S1 Continued
ΔHSolv (SVM) / ΔHSolv (ANN) / ΔHSolv (PLS) / ΔHSolv (EXP) / Name / Number-23.38 / -21.14 / -17.03 / -24.40 / Nitromethane / 96
-31.97 / -31.40 / -31.62 / -33.81 / 1-Butanethiol / 97
-47.93 / -44.09 / -40.42 / -46.76 / 1,2,4-Trimethylbenzene / 98
Test set
-11.71 / -12.27 / -14.94 / -11.17 / Ethane / 99
-40.35 / -42.18 / -45.81 / -41.51 / Octane / 100
-59.87 / -65.45 / -54.85 / -61.17 / Dodecane / 101
-31.63 / -31.96 / -34.39 / -30.43 / 3-Methylpentane / 102
-34.54 / -35.95 / -37.98 / -32.92 / 2,4-Dimethylpentane / 103
-41.55 / -38.33 / -38.12 / -42.66 / Cyclooctane / 104
-37.61 / -37.68 / -39.77 / -35.37 / Methylcyclohexane / 105
-26.42 / -28.06 / -28.58 / -25.19 / Butanal / 106
-46.20 / -48.18 / -40.68 / -45.76 / Octanal / 107
-20.40 / -23.68 / -17.68 / -21.59 / Acetone / 108
-50.44 / -52.52 / -56.56 / -50.12 / 2-Nonanone / 109
-53.47 / -54.65 / -57.15 / -52.54 / Dipentyl ether / 110
-32.11 / -33.85 / -34.11 / -30.79 / Butyl methyl ether / 111
-26.46 / -27.38 / -29.09 / -24.81 / Methyl tert-butyl ether / 112
-66.97 / -65.22 / -73.51 / -68.10 / 2,5,8,11,14-Pentaoxopentadecane / 113
-15.13 / -14.38 / -11.13 / -14.90 / Methanol / 114
-52.83 / -50.60 / -47.97 / -53.66 / 1-Nonanol / 115
-24.34 / -24.91 / -25.55 / -22.60 / 2-Methyl-2-propanol / 116
-32.06 / -31.62 / -26.03 / -31.93 / 3-Methyl-2-butanol / 117
-23.88 / -23.11 / -20.92 / -25.14 / Propylamine / 118
-26.64 / -26.38 / -23.41 / -28.11 / iso-Butylamine / 119
-42.12 / -42.71 / -40.73 / -44.97 / Heptylamine / 120
-52.33 / -52.67 / -47.34 / -54.09 / Nonylamine / 121
-37.44 / -38.20 / -39.97 / -35.94 / Toluene / 122
-56.10 / -52.82 / -47.61 / -54.06 / 1-Methylnaphthalene / 123
TABLE S2 Comparison of experimental and predicted values of gas to hexadecane solvation enthalpy (ΔHSolv in units of kJ mole-1) for training and test sets
ΔHSolv (SVM) / ΔHSolv (ANN) / ΔHSolv (PLS) / ΔHSolv (EXP) / Name / NumberTraining set
-4.02 / -4.33 / -3.13 / -3.97 / Methane / 1
-15.89 / -17.14 / -17.61 / -15.94 / Propane / 2
-24.91 / -26.98 / -27.94 / -25.94 / Pentane / 3
-31.19 / -34.66 / -33.09 / -31.04 / Hexane / 4
-43.19 / -43.88 / -45.95 / -41.13 / Octane / 5
-81.33 / -78.82 / -75.95 / -81.38 / Hexadecane / 6
-19.90 / -20.66 / -21.10 / -18.74 / 2-Methylpropane / 7
-22.65 / -23.27 / -25.28 / -21.14 / 2,2-Dimethylpropane / 8
-25.69 / -28.10 / -32.60 / -27.66 / Cyclopentane / 9
-31.55 / -32.22 / -36.34 / -31.50 / Cyclohexane / 10
-13.51 / -14.70 / -16.77 / -13.35 / Propene / 11
-21.47 / -20.77 / -17.58 / -21.42 / Acetone / 12
-24.34 / -25.54 / -22.93 / -26.48 / 2-Butanone / 13
-35.72 / -37.30 / -39.10 / -35.77 / 2-Hexanone / 14
-39.90 / -42.49 / -43.38 / -40.46 / 2-Heptanone / 15
-43.17 / -47.73 / -48.80 / -44.89 / 4-Heptanone / 16
-49.42 / -51.98 / -52.15 / -49.37 / 2-Nonanone / 17
-36.02 / -37.93 / -38.63 / -36.48 / Cyclohexanone / 18
-25.25 / -26.34 / -28.86 / -25.19 / Diethyl ether / 19
-44.99 / -46.03 / -46.65 / -43.42 / Dibutyl ether / 20
-31.99 / -31.76 / -32.05 / -30.53 / Butyl methyl ether / 21
-35.86 / -36.84 / -31.02 / -34.12 / Methyl tert-amyl ether / 22
-27.70 / -27.17 / -31.10 / -28.53 / Tetrahydrofuran / 23
-30.90 / -31.22 / -34.03 / -30.78 / 2-Methyltetrahydrofuran / 24
-28.12 / -25.80 / -24.55 / -28.07 / Chloroform / 25
-30.87 / -32.51 / -32.05 / -30.92 / Carbon tetrachloride / 26
-30.93 / -28.18 / -29.98 / -30.88 / 1-Chlorobutane / 27
-38.46 / -38.73 / -41.56 / -38.41 / Tetrachloroethene / 28
-25.41 / -23.28 / -16.93 / -25.36 / Nitromethane / 29
-30.10 / -31.26 / -25.54 / -30.15 / 2-Nitropropane / 30
-19.08 / -18.24 / -15.21 / -19.08 / Acetonitrile / 31
-13.30 / -12.99 / -9.53 / -13.35 / Methanol / 32
-21.12 / -21.38 / -25.08 / -21.17 / 1-Propanol / 33
-26.85 / -26.21 / -27.58 / -28.07 / 1-Butanol / 34
-38.97 / -36.18 / -37.72 / -39.79 / 1-Hexanol / 35
-44.48 / -42.62 / -40.56 / -44.43 / Heptan-1-ol / 36
-49.12 / -47.65 / -45.34 / -49.07 / 1-Octanol / 37
-53.93 / -50.75 / -46.00 / -52.81 / 1-Nonanol / 38
-24.38 / -25.09 / -27.26 / -23.01 / tert-Butanol / 39
-44.65 / -45.61 / -38.89 / -47.53 / Cyclohexanol / 40
-28.88 / -29.88 / -29.87 / -27.99 / Ethyl acetate / 41
-51.47 / -45.25 / -44.11 / -48.37 / Methyl benzoate / 42
-30.43 / -32.49 / -34.63 / -30.38 / Benzene / 43
-40.96 / -42.25 / -45.43 / -40.12 / Ethylbenzene / 44
-44.19 / -47.21 / -49.63 / -44.14 / Propylbenzene / 45
-41.32 / -38.25 / -37.86 / -41.37 / m-Xylene / 46
-41.32 / -40.04 / -37.79 / -41.51 / p-Xylene / 47
-46.61 / -43.42 / -42.35 / -46.56 / Mesitylene / 48
-41.29 / -44.67 / -35.68 / -41.24 / Anisole / 49
-40.47 / -40.64 / -41.26 / -41.17 / Benzaldehyde / 50
TABLE S2Continued
ΔHSolv (SVM) / ΔHSolv (ANN) / ΔHSolv (PLS) / ΔHSolv (EXP) / Name / Number-39.90 / -40.31 / -46.35 / -41.25 / Benzonitrile / 51
-39.51 / -37.16 / -39.87 / -38.24 / Chlorobenzene / 52
-33.24 / -32.84 / -36.75 / -31.05 / Fluorobenzene / 53
-32.24 / -34.82 / -37.61 / -32.19 / 1,4-Difluorobenzene / 54
-39.30 / -38.23 / -37.14 / -41.80 / Aniline / 55
-45.60 / -42.35 / -40.98 / -45.65 / Nitrobenzene / 56
-48.31 / -45.69 / -43.55 / -48.36 / N,N-Dimethylaniline / 57
-32.59 / -29.94 / -36.44 / -32.64 / Pyridine / 58
-35.98 / -37.33 / -38.34 / -35.90 / 2-Methylpyridine / 59
-36.60 / -36.98 / -32.57 / -36.78 / 4-Methylpyridine / 60
-21.54 / -21.67 / -20.40 / -23.97 / Propylamine / 61
-32.94 / -32.51 / -30.97 / -34.81 / Pentylamine / 62
-38.48 / -38.19 / -35.97 / -39.46 / Hexylamine / 63
-44.16 / -43.87 / -42.82 / -45.27 / Heptylamine / 64
-53.58 / -54.28 / -50.24 / -55.03 / Nonylamine / 65
-57.73 / -59.77 / -56.82 / -60.02 / Decylamine / 66
-25.52 / -26.29 / -27.40 / -24.60 / Diethylamine / 67
-36.42 / -36.89 / -38.10 / -34.14 / Triethylamine / 68
-38.90 / -38.96 / -42.64 / -38.95 / Diiodomethane / 69
-20.93 / -19.30 / -23.73 / -20.88 / 2,2,2-Trifluoroethanol / 70
-22.04 / -23.08 / -30.70 / -22.09 / 1,1,1,3,3,3-Hexafluoropropan-2-ol / 71
-42.83 / -42.08 / -38.19 / -42.38 / Benzyl alcohol / 72
-29.87 / -30.21 / -35.15 / -29.92 / Thiophene / 73
-42.76 / -44.21 / -47.62 / -43.32 / Benzyl chloride / 74
-55.75 / -55.38 / -52.74 / -55.80 / 1-Methylnaphthalene / 75
Test set
-11.47 / -13.17 / -9.90 / -11.51 / Ethane / 76
-19.77 / -22.85 / -25.46 / -20.79 / Butane / 77
-37.48 / -39.42 / -41.10 / -36.15 / Heptane / 78
-10.93 / -11.97 / -13.63 / -11.17 / Ethene / 79
-29.67 / -34.52 / -26.56 / -31.05 / 2-Pentanone / 80
-41.57 / -42.11 / -35.42 / -44.89 / 2-Octanone / 81
-36.01 / -37.70 / -38.85 / -34.15 / Dipropyl ether / 82
-32.65 / -33.14 / -36.68 / -30.67 / Diisopropyl ether / 83
-23.65 / -21.37 / -19.92 / -23.18 / Dichloromethane / 84
-17.89 / -17.56 / -14.28 / -16.32 / Ethanol / 85
-21.10 / -20.11 / -16.78 / -22.38 / 2-Propanol / 86
-32.31 / -33.51 / -37.73 / -31.34 / 1-Pentanol / 87
-62.35 / -64.66 / -57.07 / -61.39 / 1-Undecanol / 88
-40.24 / -41.09 / -42.22 / -38.49 / Butyl acetate / 86
-36.35 / -37.81 / -38.50 / -35.90 / Toluene / 90
-46.09 / -44.66 / -42.61 / -47.36 / Acetophenone / 91
-36.57 / -34.24 / -32.53 / -37.49 / 3-Methylpyridine / 92
-27.52 / -26.75 / -24.85 / -29.41 / Butylamine / 93
-24.64 / -24.91 / -22.90 / -26.15 / tert-Butylamine / 94
-64.64 / -64.47 / -55.61 / -61.74 / 1-Chloronaphthalene / 95
Table S3Specification of best PLS model for prediction of gas to heptane solvation enthalpy
Descriptor / Notation / Coefficient / Mean effect / VIFAverage Randic-type eigenvector-based index from adjacency matrix / VRA2 / -13.172 / -23.661 / 2.873
Second Zagreb index by valence vertex degrees / ZM2V / 0.106 / 5.058 / 1.708
Molecular weight / MW / -0.086 / -8.631 / 1.882
R autocorrelation of lag 2/weighted by atomic Sanderson electronegativities / R2E / 4.630 / 3.612 / 1.087
Constant / -8.803
Table S4Specification of best PLS model for prediction of gas to hexadecane solvation enthalpy
Descriptor / Notation / Coefficient / Mean effect / VIFAverage Randic-type eigenvector-based index from adjacency matrix / VRA2 / -13.635 / -23.145 / 2.656
Second Zagreb index by valence vertex degrees / ZM2V / 0.085 / 4.018 / 1.928
Molecular weight / MW / -0.101 / -10.197 / 1.718
R autocorrelation of lag 2/weighted by atomic Sanderson electronegativities / R2E / 3.106 / 3.612 / 1.090
Constant / -6.892
Table S5 Correlation matrix for descriptors of gas to heptane solvation enthalpy a
VRA2 / ZM2V / MW / R2EVRA2 / 1 / 0.411 / 0.578 / -0.105
ZM2V / 1 / 0.352 / -0.207
MW / 1 / 0.018
R2E / 1
a. The definitions of the descriptors are given in Table S3.
Table S6Correlation matrix for descriptors of gas to hexadecane solvation enthalpy a
VRA2 / ZM2V / MW / R2EVRA2 / 1 / 0.435 / 0.548 / -0.159
ZM2V / 1 / 0.404 / -0.217
MW / 1 / 0.034
R2E / 1
a. The definitions of the descriptors are given in Table S3.