DFT and ab initio direct dynamics study on the reaction of H2 loss reaction from H2BNH2

Jianguo Zhang; Shaowen Zhang; Qian Shu Li

doi:10.1016/j.theochem.2004.12.012

DFT and ab initio direct dynamics study on the reaction of H₂ loss reaction from H₂BNH₂

Jianguo Zhang, Shaowen Zhang, Qian Shu Li^*

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

DFT and ab initio molecular orbital calculations are carried out for the H₂ loss reaction from aminoborane (H₂BNH₂). The geometries of all the stationary points are optimized at the B3LYP and MP2 methods with a series of basis sets up to aug-cc-pVTZ. The harmonic vibrational frequencies are calculated at the same level of theory. One transition state is found at the B3LYP/(aug-)cc-pVTZ and MP2/(aug-)cc-pVTZ level of theory. The energies and enthalpies are refined at the G3, G3MP2, G3MP2B3, CBS-Q, CBS-QB3, and HL methods based on the geometries optimized using B3LYP/aug-cc-pVTZ method. The rate constants are evaluated using the conventional transition-state theory (TST), canonical variational transition-state theory (CVT), and canonical variational transition-state theory with small curvature tunneling correction (CVT/SCT) and conventional transition-state theory with Eckart tunneling correction (TST/Eckart).

Original language	English
Pages (from-to)	33-39
Number of pages	7
Journal	Journal of Molecular Structure: THEOCHEM
Volume	717
Issue number	1-3
DOIs	https://doi.org/10.1016/j.theochem.2004.12.012
Publication status	Published - 17 Mar 2005

Keywords

Ab initio calculation
Aminoborane
Iminoborane
Rate constant
Unimolecular decomposition
Vibrational transition state theory

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10.1016/j.theochem.2004.12.012

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title = "DFT and ab initio direct dynamics study on the reaction of H2 loss reaction from H2BNH2",

abstract = "DFT and ab initio molecular orbital calculations are carried out for the H2 loss reaction from aminoborane (H2BNH2). The geometries of all the stationary points are optimized at the B3LYP and MP2 methods with a series of basis sets up to aug-cc-pVTZ. The harmonic vibrational frequencies are calculated at the same level of theory. One transition state is found at the B3LYP/(aug-)cc-pVTZ and MP2/(aug-)cc-pVTZ level of theory. The energies and enthalpies are refined at the G3, G3MP2, G3MP2B3, CBS-Q, CBS-QB3, and HL methods based on the geometries optimized using B3LYP/aug-cc-pVTZ method. The rate constants are evaluated using the conventional transition-state theory (TST), canonical variational transition-state theory (CVT), and canonical variational transition-state theory with small curvature tunneling correction (CVT/SCT) and conventional transition-state theory with Eckart tunneling correction (TST/Eckart).",

keywords = "Ab initio calculation, Aminoborane, Iminoborane, Rate constant, Unimolecular decomposition, Vibrational transition state theory",

author = "Jianguo Zhang and Shaowen Zhang and Li, {Qian Shu}",

year = "2005",

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doi = "10.1016/j.theochem.2004.12.012",

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AU - Zhang, Shaowen

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AB - DFT and ab initio molecular orbital calculations are carried out for the H2 loss reaction from aminoborane (H2BNH2). The geometries of all the stationary points are optimized at the B3LYP and MP2 methods with a series of basis sets up to aug-cc-pVTZ. The harmonic vibrational frequencies are calculated at the same level of theory. One transition state is found at the B3LYP/(aug-)cc-pVTZ and MP2/(aug-)cc-pVTZ level of theory. The energies and enthalpies are refined at the G3, G3MP2, G3MP2B3, CBS-Q, CBS-QB3, and HL methods based on the geometries optimized using B3LYP/aug-cc-pVTZ method. The rate constants are evaluated using the conventional transition-state theory (TST), canonical variational transition-state theory (CVT), and canonical variational transition-state theory with small curvature tunneling correction (CVT/SCT) and conventional transition-state theory with Eckart tunneling correction (TST/Eckart).

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KW - Aminoborane

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KW - Rate constant

KW - Unimolecular decomposition

KW - Vibrational transition state theory

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DFT and ab initio direct dynamics study on the reaction of H₂ loss reaction from H₂BNH₂

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