塔苯在纯碳纳米管和Si， Ge， sn掺杂碳纳米管上的吸附：DFT研究

IF 0.7 4区化学 Q4 CHEMISTRY, PHYSICAL

Russian Journal of Physical Chemistry A Pub Date : 2025-04-25 DOI:10.1134/S0036024425700426

Seyedeh Maryam Sadati Amiri, Mohammad Reza Zardoost, Majid Moradian

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引用次数: 0

摘要

我们研究了塔本在纯碳纳米管和Si、Ge和sn掺杂（6,0）碳纳米管上吸附的可能性，作为潜在的气体传感器来预防风险。在理论的B3LYP/6-311G（d,p）、Wb97XD/6-311G（d,p）和Wb97XD/6-311++G（d,p）水平上的密度泛函理论对纳米管和配合物进行了所有计算。吸附能、DOS、HOMO/LUMO能隙、电荷转移、偶极矩、NBO、QTAIM和二阶摄动能（E2）是本研究的计算参数。当碳纳米管中掺杂Si、Ge和Sn原子时，其吸附能降低。计算得到塔苯在纯碳纳米管和硅、锗、锡纳米管上的吸附能分别为-25.9、-17.7、-17.4和-15.3 kcal/mol。纯碳纳米管和掺杂碳纳米管似乎不能成为令人印象深刻的塔苯气体传感器。

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Adsorption of Tabun on Pure and Si, Ge, and Sn-Doped (6,0) Carbon Nanotube: A DFT Study

We investigated the possibilities of the adsorption of tabun on pure and Si, Ge, and Sn-doped (6,0) carbon nanotubes as prospective gas sensors to prevent risks. Density functional theory at the B3LYP/6-311G(d,p), Wb97XD/6-311G(d,p), and Wb97XD/6-311++G(d,p) levels of the theory was used to do all computations on the nanotubes and complexes. The adsorption energies, DOS, HOMO/LUMO energy gaps, charge transfer, dipole moments, NBO, QTAIM, and second order perturbation energy (E2) were the calculated parameters in this research. The adsorption energies decreased when carbon nanotubes were doped with Si, Ge, and Sn atoms. The calculated adsorption energy of tabun on the pure and Si, Ge, and Sn-carbon nanotubes is about –25.9, –17.7, –17.4, and –15.3 kcal/mol, respectively. It seems that pure and doped CNTs cannot be impressive gas sensors for tabun.

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来源期刊

Russian Journal of Physical Chemistry A 化学-物理化学

CiteScore

1.20

自引率

14.30%

发文量

376

审稿时长

5.1 months

期刊介绍： Russian Journal of Physical Chemistry A. Focus on Chemistry (Zhurnal Fizicheskoi Khimii), founded in 1930, offers a comprehensive review of theoretical and experimental research from the Russian Academy of Sciences, leading research and academic centers from Russia and from all over the world. Articles are devoted to chemical thermodynamics and thermochemistry, biophysical chemistry, photochemistry and magnetochemistry, materials structure, quantum chemistry, physical chemistry of nanomaterials and solutions, surface phenomena and adsorption, and methods and techniques of physicochemical studies.