A Preliminary Neural Network-Based Composite Method for Accurate Prediction of Enthalpies of Formation.

IF 5.5 1区化学 Q2 CHEMISTRY, PHYSICAL Journal of Chemical Theory and Computation Pub Date : 2024-12-24 Epub Date: 2024-12-11 DOI:10.1021/acs.jctc.4c01351

Gabriel César Pereira, Rogério Custodio

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Abstract

A composite method, named ANN-G3S, is introduced, adapting from G3S theory and employing distinct sets of multiplicative scale factors. An artificial neural network (ANN)-based classification model is utilized to select optimal sets of four scale factors for electronic correlation and basis set expansion terms in electronic systems. The correlation and basis set terms are scaled by four parameters, two for atoms and the other two for molecules. The ANN model is trained on the G3/05 test set to identify the best parameter set for each electronic system. To validate the method, 10% of the structures from the test set are randomly excluded from training and optimization, forming a separate validation set. The method demonstrates a mean deviation of 1.11 kcal mol^-1 for the G3/05 set and 0.89 kcal mol^-1 for the validation set, close to the value presented by the G4 method and surpassing the accuracy of the G3 method of 1.19 kcal mol^-1 with significantly reduced computational cost. This method shows advantages by eliminating the need for purely empirical corrections, thereby enhancing both efficiency and accuracy in predicting heats of formation.

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一种基于神经网络的合成焓精确预测的初步方法。

从G3S理论出发，采用不同的乘法尺度因子集合，提出了一种复合方法ANN-G3S。利用基于人工神经网络的分类模型，对电子系统中电子相关项和基集展开项的四种尺度因子进行优选。相关和基集项由四个参数缩放，两个用于原子，另外两个用于分子。在G3/05测试集上训练人工神经网络模型，以识别每个电子系统的最佳参数集。为了验证该方法，从测试集中随机排除10%的结构进行训练和优化，形成单独的验证集。该方法对G3/05集的平均偏差为1.11 kcal mol-1，对验证集的平均偏差为0.89 kcal mol-1，接近G4方法给出的值，超过G3方法的1.19 kcal mol-1，计算成本显著降低。该方法的优点是不需要纯粹的经验修正，从而提高了预测地层热的效率和准确性。

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来源期刊

Journal of Chemical Theory and Computation 化学-物理：原子、分子和化学物理

CiteScore

9.90

自引率

16.40%

发文量

568

审稿时长

1 months

期刊介绍： The Journal of Chemical Theory and Computation invites new and original contributions with the understanding that, if accepted, they will not be published elsewhere. Papers reporting new theories, methodology, and/or important applications in quantum electronic structure, molecular dynamics, and statistical mechanics are appropriate for submission to this Journal. Specific topics include advances in or applications of ab initio quantum mechanics, density functional theory, design and properties of new materials, surface science, Monte Carlo simulations, solvation models, QM/MM calculations, biomolecular structure prediction, and molecular dynamics in the broadest sense including gas-phase dynamics, ab initio dynamics, biomolecular dynamics, and protein folding. The Journal does not consider papers that are straightforward applications of known methods including DFT and molecular dynamics. The Journal favors submissions that include advances in theory or methodology with applications to compelling problems.