Transferable Atomic Multipole Machine Learning Models for Small Organic Molecules

被引：101

作者：

Bereau, Tristan ^{[1
]}

Andrienko, Denis ^{[1
]}

von Lilienfeld, O. Anatole ^{[2
,3
,4
]}

机构：

[1] Max Planck Inst Polymer Res, D-55128 Mainz, Germany

[2] Univ Basel, Inst Phys Chem, CH-4056 Basel, Switzerland

[3] Univ Basel, Natl Ctr Computat Design & Discovery Novel Mat, Dept Chem, CH-4056 Basel, Switzerland

[4] Argonne Natl Lab, Argonne Leadership Comp Facil, Argonne, IL 60439 USA

来源：

JOURNAL OF CHEMICAL THEORY AND COMPUTATION | 2015年 / 11卷 / 07期

基金：

瑞士国家科学基金会;

关键词：

INTERMOLECULAR INTERACTION ENERGIES; FORCE-FIELD; COMPLEXES; KERNEL; ELECTROSTATICS; MECHANICS; DYNAMICS; DATABASE; CHARGES; LIMIT;

D O I：

10.1021/acs.jctc.5b00301

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

Accurate representation of the molecular electrostatic potential, which is often expanded in distributed multipole moments, is crucial for an efficient evaluation of intermolecular interactions. Here we introduce a machine learning model for multipole coefficients of atom types H, C, O, N, S, F, and Cl in any molecular conformation. The model is trained on quantum-chemical results for atoms in varying chemical environments drawn from thousands of organic molecules. Multipoles in systems with neutral, cationic, and anionic molecular charge states are treated with individual models. The models' predictive accuracy and applicability are illustrated by evaluating intermolecular interaction energies of nearly 1,000 dimers and the cohesive energy of the benzene crystal.

引用

页码：3225 / 3233

页数：9

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