Ab initio mechanism study on the reaction of chlorine atom with formic acid

Hai Tao Yu; Yu Juan Chi; Hong Gang Fu; Ze Sheng Li; Jia Zhong Sun

doi:10.1002/ptr.1119

Ab initio mechanism study on the reaction of chlorine atom with formic acid

Hai Tao Yu^*, Yu Juan Chi, Hong Gang Fu, Ze Sheng Li, Jia Zhong Sun

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

The potential energy surface (PES) for the reaction of Cl atom with HCOOH is predicted using ab initio molecular orbital calculation methods at UQCISD(T, full)/6-311 ++ G(3df,2p)//UMP2(full)/6-311+ G(d,p) level of theory with zero-point vibrational energy (ZFVE) correction. The calculated results show that the reaction mechanism of Cl atom with formic acid is a C-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom with a 3.73 kJ/mol reaction barrier height, leading to the formation of cis-HOCO radical which will reacts with Cl atom or other molecules in such a reaction system. Because the reaction barrier height of O-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom which leads to the formation of HCO₂ radical is 67.95 kJ/mol, it is a secondary reaction channel in experiment. This is in good agreement with the prediction based on the previous experiments.

Original language	English
Pages (from-to)	244-248
Number of pages	5
Journal	Chinese Journal of Chemistry
Volume	21
Issue number	3
DOIs	https://doi.org/10.1002/ptr.1119
Publication status	Published - Mar 2003
Externally published	Yes

Keywords

Potential energy surface
Reaction mechanism
Reaction of Cl atom with HCOOH

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Yu, H. T., Chi, Y. J., Fu, H. G., Li, Z. S., & Sun, J. Z. (2003). Ab initio mechanism study on the reaction of chlorine atom with formic acid. Chinese Journal of Chemistry, 21(3), 244-248. https://doi.org/10.1002/ptr.1119

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title = "Ab initio mechanism study on the reaction of chlorine atom with formic acid",

abstract = "The potential energy surface (PES) for the reaction of Cl atom with HCOOH is predicted using ab initio molecular orbital calculation methods at UQCISD(T, full)/6-311 ++ G(3df,2p)//UMP2(full)/6-311+ G(d,p) level of theory with zero-point vibrational energy (ZFVE) correction. The calculated results show that the reaction mechanism of Cl atom with formic acid is a C-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom with a 3.73 kJ/mol reaction barrier height, leading to the formation of cis-HOCO radical which will reacts with Cl atom or other molecules in such a reaction system. Because the reaction barrier height of O-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom which leads to the formation of HCO2 radical is 67.95 kJ/mol, it is a secondary reaction channel in experiment. This is in good agreement with the prediction based on the previous experiments.",

keywords = "Potential energy surface, Reaction mechanism, Reaction of Cl atom with HCOOH",

author = "Yu, {Hai Tao} and Chi, {Yu Juan} and Fu, {Hong Gang} and Li, {Ze Sheng} and Sun, {Jia Zhong}",

year = "2003",

month = mar,

doi = "10.1002/ptr.1119",

language = "English",

volume = "21",

pages = "244--248",

journal = "Chinese Journal of Chemistry",

issn = "1001-604X",

publisher = "John Wiley and Sons Inc.",

number = "3",

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TY - JOUR

T1 - Ab initio mechanism study on the reaction of chlorine atom with formic acid

AU - Yu, Hai Tao

AU - Chi, Yu Juan

AU - Fu, Hong Gang

AU - Li, Ze Sheng

AU - Sun, Jia Zhong

PY - 2003/3

Y1 - 2003/3

N2 - The potential energy surface (PES) for the reaction of Cl atom with HCOOH is predicted using ab initio molecular orbital calculation methods at UQCISD(T, full)/6-311 ++ G(3df,2p)//UMP2(full)/6-311+ G(d,p) level of theory with zero-point vibrational energy (ZFVE) correction. The calculated results show that the reaction mechanism of Cl atom with formic acid is a C-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom with a 3.73 kJ/mol reaction barrier height, leading to the formation of cis-HOCO radical which will reacts with Cl atom or other molecules in such a reaction system. Because the reaction barrier height of O-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom which leads to the formation of HCO2 radical is 67.95 kJ/mol, it is a secondary reaction channel in experiment. This is in good agreement with the prediction based on the previous experiments.

AB - The potential energy surface (PES) for the reaction of Cl atom with HCOOH is predicted using ab initio molecular orbital calculation methods at UQCISD(T, full)/6-311 ++ G(3df,2p)//UMP2(full)/6-311+ G(d,p) level of theory with zero-point vibrational energy (ZFVE) correction. The calculated results show that the reaction mechanism of Cl atom with formic acid is a C-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom with a 3.73 kJ/mol reaction barrier height, leading to the formation of cis-HOCO radical which will reacts with Cl atom or other molecules in such a reaction system. Because the reaction barrier height of O-site hydrogen abstraction reaction from cis-HOC(H)O molecule by Cl atom which leads to the formation of HCO2 radical is 67.95 kJ/mol, it is a secondary reaction channel in experiment. This is in good agreement with the prediction based on the previous experiments.

KW - Potential energy surface

KW - Reaction mechanism

KW - Reaction of Cl atom with HCOOH

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U2 - 10.1002/ptr.1119

DO - 10.1002/ptr.1119

M3 - Article

AN - SCOPUS:2942550029

SN - 1001-604X

VL - 21

SP - 244

EP - 248

JO - Chinese Journal of Chemistry

JF - Chinese Journal of Chemistry

IS - 3

ER -

Ab initio mechanism study on the reaction of chlorine atom with formic acid

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Keywords

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