Unimolecular decomposition of the n-C3H7 radical. Direct dynamics calculation of the thermal rate constant

L. C. Jitariu; H. Wang; I. H. Hillier; M. J. Pilling

doi:10.1039/b101195m

Unimolecular decomposition of the n-C3H7 radical. Direct dynamics calculation of the thermal rate constant

L. C. Jitariu, H. Wang, I. H. Hillier, M. J. Pilling

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

Abstract

Rate constants for the unimolecular decomposition of the n-propyl radical have been calculated over the temperature range 250-2600 K, using variational transition state theory (VTST) with rectilinear coordinates and transmission coefficients calculated by the zero-curvature (ZCT) and small-curvature (SCT) tunneling approximations. Single-level calculations, based upon AM1 potential energy surfaces using AM1 parameters optimized on the basis of high level ab initio calculations (UMP2/6-311++G**) for this reaction, yield rate constants in good agreement with experiment. Dual-level direct dynamics calculations which explicitly include the results of the ab initio calculations, yield rate constants within a factor of 2 of the experimental data. Results of using the new AM1 parameters for the decomposition of n-C5H11 are encouraging.

Original language	English
Pages (from-to)	2459-2466
Number of pages	7
Journal	Physical Chemistry Chemical Physics
Volume	3
Issue number	12
DOIs	https://doi.org/10.1039/b101195m
Publication status	Published - 2001

Keywords

Density functional theory (B3LYP; unimol. decompn. of n-C3H7 radical); AM1 MO; Potential barrier; Potential energy surface; Transition state structure; Tunneling; Zero point energy (unimol. decompn. of n-C3H7 radical); Decomposition; Decomposition kinetics (unimol.; unimol. decompn. of n-C3H7 radical); Quantum chemistry (unrestricted Moller-Plesset (UMP2); unimol. decompn. of n-C3H7 radical); Transition state theory (variational; unimol. decompn. of n-C3H7 radical)

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10.1039/b101195m

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title = "Unimolecular decomposition of the n-C3H7 radical. Direct dynamics calculation of the thermal rate constant",

abstract = "Rate constants for the unimolecular decomposition of the n-propyl radical have been calculated over the temperature range 250-2600 K, using variational transition state theory (VTST) with rectilinear coordinates and transmission coefficients calculated by the zero-curvature (ZCT) and small-curvature (SCT) tunneling approximations. Single-level calculations, based upon AM1 potential energy surfaces using AM1 parameters optimized on the basis of high level ab initio calculations (UMP2/6-311++G**) for this reaction, yield rate constants in good agreement with experiment. Dual-level direct dynamics calculations which explicitly include the results of the ab initio calculations, yield rate constants within a factor of 2 of the experimental data. Results of using the new AM1 parameters for the decomposition of n-C5H11 are encouraging.",

keywords = "Density functional theory (B3LYP; unimol. decompn. of n-C3H7 radical); AM1 MO; Potential barrier; Potential energy surface; Transition state structure; Tunneling; Zero point energy (unimol. decompn. of n-C3H7 radical); Decomposition; Decomposition kinetics (unimol.; unimol. decompn. of n-C3H7 radical); Quantum chemistry (unrestricted Moller-Plesset (UMP2); unimol. decompn. of n-C3H7 radical); Transition state theory (variational; unimol. decompn. of n-C3H7 radical)",

author = "Jitariu, {L. C.} and H. Wang and Hillier, {I. H.} and Pilling, {M. J.}",

year = "2001",

doi = "10.1039/b101195m",

language = "English",

volume = "3",

pages = "2459--2466",

journal = "Physical Chemistry Chemical Physics",

issn = "1463-9076",

publisher = "Royal Society of Chemistry",

number = "12",

}

TY - JOUR

T1 - Unimolecular decomposition of the n-C3H7 radical. Direct dynamics calculation of the thermal rate constant

AU - Jitariu, L. C.

AU - Wang, H.

AU - Hillier, I. H.

AU - Pilling, M. J.

PY - 2001

Y1 - 2001

N2 - Rate constants for the unimolecular decomposition of the n-propyl radical have been calculated over the temperature range 250-2600 K, using variational transition state theory (VTST) with rectilinear coordinates and transmission coefficients calculated by the zero-curvature (ZCT) and small-curvature (SCT) tunneling approximations. Single-level calculations, based upon AM1 potential energy surfaces using AM1 parameters optimized on the basis of high level ab initio calculations (UMP2/6-311++G**) for this reaction, yield rate constants in good agreement with experiment. Dual-level direct dynamics calculations which explicitly include the results of the ab initio calculations, yield rate constants within a factor of 2 of the experimental data. Results of using the new AM1 parameters for the decomposition of n-C5H11 are encouraging.

AB - Rate constants for the unimolecular decomposition of the n-propyl radical have been calculated over the temperature range 250-2600 K, using variational transition state theory (VTST) with rectilinear coordinates and transmission coefficients calculated by the zero-curvature (ZCT) and small-curvature (SCT) tunneling approximations. Single-level calculations, based upon AM1 potential energy surfaces using AM1 parameters optimized on the basis of high level ab initio calculations (UMP2/6-311++G**) for this reaction, yield rate constants in good agreement with experiment. Dual-level direct dynamics calculations which explicitly include the results of the ab initio calculations, yield rate constants within a factor of 2 of the experimental data. Results of using the new AM1 parameters for the decomposition of n-C5H11 are encouraging.

KW - Density functional theory (B3LYP; unimol. decompn. of n-C3H7 radical); AM1 MO; Potential barrier; Potential energy surface; Transition state structure; Tunneling; Zero point energy (unimol. decompn. of n-C3H7 radical); Decomposition; Decomposition kinetic

U2 - 10.1039/b101195m

DO - 10.1039/b101195m

M3 - Article

SN - 1463-9076

VL - 3

SP - 2459

EP - 2466

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 12

ER -

Unimolecular decomposition of the n-C3H7 radical. Direct dynamics calculation of the thermal rate constant

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Keywords

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