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Theoretical study on effect of substituent on aromaticity of tetrazole ring

四唑 芳香性 化学 取代基 戒指(化学) 极性效应 计算化学 结晶学 药物化学 立体化学 有机化学 分子
作者
Chunhai Yang,Xue Li,Ning Zhou,Bing Chen,Huilong Dong,Junxun Jin,Xiuli Hu,Tao Huang,Lei Shen,Jun Yi,Quan Wang,Dihua Ouyang
出处
期刊:Canadian Journal of Chemistry [NRC Research Press]
卷期号:101 (10): 781-789
标识
DOI:10.1139/cjc-2023-0014
摘要

Tetrazole compounds are a category of energetic materials with great potential. Their stability is inherently related to their aromatics. On the basis of research in DFT at b3lyp/6–311 ** level on three compounds interested, viz. 5-amino-1 H-tetrazole, 5-carboxyl-1 H-tetrazole, and 2-methyl-5-carboxyl-tetrazole, their aromatic characters are extensively analyzed by virtue of different estimation method. Analyses show that these methods, Nucleus-independent Chemical Shift, iso-chemical shielding surface, adaptive natural density partitioning, π-electrons density, and localized orbital locator of π-electron density are efficient for substituted-tetrazole ring aromaticity estimation. Conclusion denotes that both substituent and substituted position can significantly affect the aromaticity of tetrazole ring of tetrazole compound. Among these given substituents, electro-withdrawing group -COOH significantly increases the aromaticity of the tetrazole rings due to the withdrawing to π-electrons thereof but electro-donating group -NH 2 weakens the one of the tetrazole rings due to the donating to π-electrons thereof. But for 2-methyl-5-carboxyl-tetrazole, the aromaticity increasing of -COOH imposed on π-electrons of tetrazole ring thereof is partially balanced by the existence of the electron-donating group -CH 3 at asymmetric meta-position of tetrazole ring. Consequently, the aromaticity order is 5-Carboxyl-1 H-tetrazole > 2-methyl-5-Carboxyl-tetrazole > 5-amino-1 H-tetrazole.

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