Searching for the analogues of 1,1-dinitro-2,2-diamino ethylene (FOX-7) by high-throughput computation and machine learning

IF 3.6 FirePhysChem Pub Date : 2023-04-05 DOI:10.1016/j.fpc.2023.04.002

Wen Qian , Jing Huang , Shitai Guo , Bowen Duan , Weiyu Xie , Jian Liu , Chaoyang Zhang

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引用次数: 1

Abstract

1,1-dinitro-2,2-diamino ethylene (FOX-7) is typically representative of low sensitivity and high energy compound. In this work, analogues of FOX-7 are screened using a combined method of high-throughput computation (HTC) and machine learning (ML). The molecules are generated with typical unsaturated hydrocarbons backbones and random combination of substituents -H, -NH₂ and -NO₂, then HTC is performed based on 200 sample molecules. ML models are established based on the HTC results, with detonation parameters predicted using the most accurate model of extreme gradient boosting (XGB). Finally, stability of the filtered high energy molecules are confirmed by quantum chemistry calculations, and besides FOX-7, 8 more energetic molecules with high energy as well as high stability (detonation velocity ≥ 8841.1 m/s, detonation pressure ≥ 34.6 GPa and stability parameter bond dissociation energy ≥ 201.7 kJ/mol) are achieved. This work has shown the efficiency of HTC and ML methods in searching new target molecules.

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通过高通量计算和机器学习寻找1,1-二硝基-2,2-二氨基乙烯(FOX-7)的类似物

1,1-二硝基-2,2-二氨基乙烯（FOX-7）是典型的低灵敏度和高能化合物的代表。在这项工作中，使用高通量计算（HTC）和机器学习（ML）的组合方法筛选FOX-7的类似物。分子由典型的不饱和烃主链和取代基-H、-NH2和-NO2的随机组合产生，然后基于200个样品分子进行HTC。基于HTC结果建立了ML模型，并使用最精确的极限梯度助推（XGB）模型预测了爆震参数。最后，通过量子化学计算证实了过滤后的高能分子的稳定性，除FOX-7外，还获得了8个高能高稳定性分子（爆速≥8841.1m/s，爆压≥34.6GPa，稳定参数键离解能≥201.7kJ/mol）。这项工作显示了HTC和ML方法在寻找新的目标分子方面的效率。

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来源期刊

FirePhysChem

CiteScore

1.40

自引率

0.00%

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