Support vector machine (regression)
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Regression model (regression)
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Training set | training | 60 | 0.914 | 0.103 |
Support vector machine (regression)
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Training set | training | 60 | 0.946 | 0.082 |
Regression model (regression)
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Training set | training | 60 | 0.790 | 0.069 |
Support vector machine (regression)
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Training set | training | 60 | 0.973 | 0.025 |
When using this QDB archive, please cite (see details) it together with the original article:
Toots, K. M.; Sild, S.; Leis, J.; Acree Jr., W. E.; Maran, U. Data for: Machine learning Quantitative Structure-Property Relationships as a function of ionic liquid cations for the gas-ionic liquid partition coefficient of hydrocarbons. QsarDB repository, QDB.256. 2022. https://doi.org/10.15152/QDB.256
Toots, K. M.; Sild, S.; Leis, J.; Acree Jr., W. E.; Maran, U. Machine learning Quantitative Structure-Property Relationships as a function of ionic liquid cations for the gas-ionic liquid partition coefficient of hydrocarbons. Int. J. Mol. Sci. 2022, 23, 7534. https://doi.org/10.3390/ijms23147534
dc.contributor.other | This work was supported by the Ministry of Education and Research, Republic of Estonia through Estonian Research Council (grant number PRG1509) and the European Union European Regional Development Fund through Foundation Archimedes (grant number TK143, Centre of Excellence in Molecular Cell Engineering). | |
dc.date.accessioned | 2022-06-22T18:10:20Z | |
dc.date.available | 2022-06-22T18:10:20Z | |
dc.date.issued | 2022-06-22 | |
dc.identifier.uri | http://hdl.handle.net/10967/256 | |
dc.identifier.uri | http://dx.doi.org/10.15152/QDB.256 | |
dc.description.abstract | Ionic liquids (ILs) are known for their unique characteristics as solvents and electrolytes. Therefore new ILs are being developed and adapted as innovative chemical environments for different applications where their properties need to be understood on a molecular level. Computational data driven methods provide means for understanding of properties at molecular level and quantitative structure-property relationships (QSPRs) gives framework for this. This framework is commonly used to study the properties of molecules in ILs as an environment. The opposite situation where the property is considered as a function of the ionic liquid does not exist. The aim of the present study was to supplement this perspective with new knowledge and to develop QSPRs that would allow the understanding of molecular interactions in ionic liquids based on the structure of the cationic moiety. A wide range of applications in electrochemistry, separation and extraction chemistry depend on the partitioning of solutes between the ionic liquid and the surrounding environment that is characterized by the gas-ionic liquid partition coefficient. To model this property as a function of the structure of cationic counterpart the series of ionic liquids were selected with a common bis-(trifluoromethylsulfonyl)-imide anion, [Tf2N]-, for benzene, hexane and cyclohexane. MLR, SVR and GPR machine learning approaches were used to derive data driven models and their performance was compared. The cross-validation coefficients of determination in the range 0.71–0.93 along with other performance statistics indicated strong accuracy of models for all data series and machine learning methods. The analysis and interpretation of descriptors revealed that generally higher lipophilicity and dispersion interaction capability, and lower polarity in the cations induces a higher partition coefficient for benzene, hexane, cyclohexane and hydrocarbons in general. Applicability domain analysis of models concluded no highly influential outliers and the models are applicable to a wide selection of cation families with variable size, polarity, and aliphatic or aromatic nature. | en_US |
dc.publisher | Karl Marti Toots | |
dc.publisher | Sulev Sild | |
dc.publisher | Jaan Leis | |
dc.publisher | Acree Jr., W. E. | en_US |
dc.publisher | Uko Maran | |
dc.rights | Attribution 4.0 International | * |
dc.rights.uri | http://creativecommons.org/licenses/by/4.0/ | * |
dc.title | Toots, K. M.; Sild, S.; Leis, J.; Acree Jr., W. E.; Maran, U. Machine learning Quantitative Structure-Property Relationships as a function of ionic liquid cations for the gas-ionic liquid partition coefficient of hydrocarbons. Int. J. Mol. Sci. 2022, 23, 7534. | |
qdb.property.endpoint | 6. Other (Gas-ionic liquid partition coefficient) | en_US |
qdb.descriptor.application | Mordred 1.1.1 | en_US |
qdb.prediction.application | scikit-learn 0.24.1 | en_US |
bibtex.entry | article | en_US |
bibtex.entry.author | Toots, Karl Marti | |
bibtex.entry.author | Sild, Sulev | |
bibtex.entry.author | Leis, Jaan | |
bibtex.entry.author | Acree Jr., William E | |
bibtex.entry.author | Maran, Uko | |
bibtex.entry.doi | 10.3390/ijms23147534 | |
bibtex.entry.journal | Int. J. Mol. Sci. | |
bibtex.entry.number | 14 | |
bibtex.entry.pages | 7534 | |
bibtex.entry.title | Machine learning Quantitative Structure-Property Relationships as a function of ionic liquid cations for the gas-ionic liquid partition coefficient of hydrocarbons | en_US |
bibtex.entry.volume | 23 | |
bibtex.entry.year | 2022 | |
qdb.model.type | Regression model (regression) | en_US |
qdb.model.type | Support vector machine (regression) | en_US |
qdb.model.type | Gaussian process (regression) | en_US |
qdb.descriptor.calculation | SVRh | |
qdb.descriptor.calculation | MLRh-Eq23 | |
qdb.descriptor.calculation | MLRc-Eq24 | |
qdb.descriptor.calculation | SVRc | |
qdb.descriptor.calculation | MLRb-Eq25 | |
qdb.descriptor.calculation | SVRb |
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article2_qsardb.zip | Article_2 | application/zip | 59.33Kb | View/ |