Predicting Heats of Explosion of Nitroaromatic Compounds through NBO Charges and 15N NMR Chemical Shifts of Nitro Groups

Ricardo Infante-Castillo, S. Hernández‐Rivera
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引用次数: 6

Abstract

This work presents a new quantitative model to predict the heat of explosion of nitroaromatic compounds using the natural bond orbital (NBO) charge and 15N NMR chemical shifts of the nitro groups (15NNitro) as structural parameters. The values of the heat of explosion predicted for 21 nitroaromatic compounds using the model described here were compared with experimental data. The prediction ability of the model was assessed by the leave-one-out cross-validation method. The cross-validation results show that the model is significant and stable and that the predicted accuracy is within 0.146 MJ kg−1, with an overall root mean squared error of prediction (RMSEP) below 0.183 MJ kg−1. Strong correlations were observed between the heat of explosion and the charges (R2 = 0.9533) and 15N NMR chemical shifts (R2 = 0.9531) of the studied compounds. In addition, the dependence of the heat of explosion on the presence of activating or deactivating groups of nitroaromatic explosives was analyzed. All calculations, including optimizations, NBO charges, and 15NNitro NMR chemical shifts analyses, were performed using density functional theory (DFT) and a 6-311
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利用NBO电荷和硝基的15N核磁共振化学位移预测硝基芳香族化合物的爆炸热
本文提出了以天然键轨道(NBO)电荷和硝基(15NNitro)的15N NMR化学位移为结构参数,预测硝基芳香族化合物爆炸热的新定量模型。用该模型预测了21种硝基芳香族化合物的爆炸热值,并与实验数据进行了比较。采用留一交叉验证法评价模型的预测能力。交叉验证结果表明,该模型具有显著性和稳定性,预测精度在0.146 MJ kg−1以内,总体预测均方根误差(RMSEP)在0.183 MJ kg−1以下。爆炸热与所研究化合物的电荷量(R2 = 0.9533)和15N核磁共振化学位移(R2 = 0.9531)之间存在较强的相关性。此外,还分析了硝基芳香炸药中是否存在活化或失活基团对爆炸热的依赖性。所有的计算,包括优化、NBO电荷和15NNitro NMR化学位移分析,都使用密度泛函理论(DFT)和6-311进行
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