量子技术的计算机模拟:双原子A2分子(A = C, Si, N, P, O, S)与单壁碳纳米管传感器的相互作用

O. Maslova, S. Beznosyuk, A. Masalimov
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引用次数: 0

摘要

用计算机模拟了双原子A2分子(A = C, Si, N, P, O, S)与超小单壁碳纳米管(SWCNT)传感器的相互作用。采用非局域密度泛函B3LYP / 3-21G (ORCA封装)对超原子纳米体系进行了研究。对于所有的分子,已经证明,它们的轴的最佳方向是垂直于swcnts的外表面。发现元素周期表中IV a族(C, Si)、V a族(N, P)和VI a族(O, S)分子的吸附有显著差异。计算表明,C2和Si分子的化学吸附的结合能分别为2.91 eV和1.51 eV,距离swcnts表面的平衡距离分别为1.39 A和2.91 A。对于C2分子,与一对碳原子的共价键是首选的,而对于Si2分子,与一个碳原子的共价键更稳定。而对于N2、P2、O2、S2分子,其结合能分别为0.15 eV、0.27 eV、0.39 eV、0.52 eV,最好位于碳六元体的中心,距离swcnts表面3.00 a、3.17 a、2.66 a、2.96 a。用计算机模拟了双原子A2分子(A = C, Si, N, P, O, S)与超小单壁碳纳米管(SWCNT)传感器的相互作用。采用非局域密度泛函B3LYP / 3-21G (ORCA封装)对超原子纳米体系进行了研究。对于所有的分子,已经证明,它们的轴的最佳方向是垂直于swcnts的外表面。发现元素周期表中IV a族(C, Si)、V a族(N, P)和VI a族(O, S)分子的吸附有显著差异。计算表明,C2和Si分子的化学吸附的结合能分别为2.91 eV和1.51 eV,距离swcnts表面的平衡距离分别为1.39 A和2.91 A。对于C2分子,与一对碳原子的共价键是首选的,而对于Si2分子,与一个碳原子的共价键更稳定。反过来,对于N2, P2, O2, S2分子,更可取的是…
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computer simulation of quantum technologies: The interaction of diatomic A2 molecules (A = C, Si, N, P, O, S) with single-wall carbon nanotube sensor
Computer simulation of the interaction of diatomic A2 molecules (A = C, Si, N, P, O, S) with a super-small single-walled carbon nanotube (SWCNT) sensor was performed. The nonlocal density functional B3LYP / 3-21G (ORCA package) was used to study the supratomical nanosystem. For all molecules, it has been shown that the most preferable orientation of their axis is perpendicular to the outer surface of the SWCNT. Significant differences were found in the adsorption of molecules of group IV a (C, Si), group V a (N, P) and group VI a (O, S) of the periodic table of elements. The calculation showed that the chemisorption of the molecules C2 and Si is characterized by binding energies of 2.91 eV, 1.51 eV and equilibrium distances from the SWCNT surface of 1.39 A and 2.91 A, respectively. For a C2 molecule, a covalent bond with a pair of carbon atoms is preferred, while for a Si2 molecule, a covalent bond with one of the carbon atoms is more stable. In turn, for the N2, P2, O2, S2 molecules, it is preferable to be located in the center of carbon sextet at a distance from the surface of the SWCNT: 3.00 A, 3.17 A, 2.66 A, 2.96 A with binding energy: 0.15 eV, 0.27 eV, 0.39 eV, 0.52 eV, respectively.Computer simulation of the interaction of diatomic A2 molecules (A = C, Si, N, P, O, S) with a super-small single-walled carbon nanotube (SWCNT) sensor was performed. The nonlocal density functional B3LYP / 3-21G (ORCA package) was used to study the supratomical nanosystem. For all molecules, it has been shown that the most preferable orientation of their axis is perpendicular to the outer surface of the SWCNT. Significant differences were found in the adsorption of molecules of group IV a (C, Si), group V a (N, P) and group VI a (O, S) of the periodic table of elements. The calculation showed that the chemisorption of the molecules C2 and Si is characterized by binding energies of 2.91 eV, 1.51 eV and equilibrium distances from the SWCNT surface of 1.39 A and 2.91 A, respectively. For a C2 molecule, a covalent bond with a pair of carbon atoms is preferred, while for a Si2 molecule, a covalent bond with one of the carbon atoms is more stable. In turn, for the N2, P2, O2, S2 molecules, it is preferable to ...
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