4.8 Article

Freedom of design in chemical compound space: towards rational in silico design of molecules with targeted quantum-mechanical properties

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CHEMICAL SCIENCE
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ROYAL SOC CHEMISTRY
DOI: 10.1039/d3sc03598k

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The rational design of molecules with specific quantum-mechanical properties requires an understanding of the relationships between structure-property and property-property in chemical compound space. In this study, the analysis of a comprehensive dataset revealed a high degree of flexibility in designing molecules with desired properties or a set of distinct molecules with various properties. Using multi-objective optimization, non-trivial paths through chemical compound space were identified that lead to molecules with optimal combinations of polarizabilities and HOMO-LUMO gaps.
The rational design of molecules with targeted quantum-mechanical (QM) properties requires an advanced understanding of the structure-property/property-property relationships (SPR/PPR) that exist across chemical compound space (CCS). In this work, we analyze these fundamental relationships in the sector of CCS spanned by small (primarily organic) molecules using the recently developed QM7-X dataset, a systematic, extensive, and tightly converged collection of 42 QM properties corresponding to & AP;4.2M equilibrium and non-equilibrium molecular structures containing up to seven heavy/non-hydrogen atoms (including C, N, O, S, and Cl). By characterizing and enumerating progressively more complex manifolds of molecular property space-the corresponding high-dimensional space defined by the properties of each molecule in this sector of CCS-our analysis reveals that one has a substantial degree of flexibility or freedom of design when searching for a single molecule with a desired pair of properties or a set of distinct molecules sharing an array of properties. To explore how this intrinsic flexibility manifests in the molecular design process, we used multi-objective optimization to search for molecules with simultaneously large polarizabilities and HOMO-LUMO gaps; analysis of the resulting Pareto fronts identified non-trivial paths through CCS consisting of sequential structural and/or compositional changes that yield molecules with optimal combinations of these properties.

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