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The C4H7+ cation. A theoretical investigation (1988)

DeFrees, D. J. ; Koch, W. ; Liu, B.

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Publication Date: 2011-08-24

Description: The potential energy surface of the C4H7+ cation has been investigated with ab initio quantum chemical theory. Extended basis set calculations, including electronic correlation, show that cyclobutyl and cyclopropylcarbinyl cation are equally stable isomers. The saddle point connecting these isomers lies 0.6 kcal/mol above the minima. The global C4H7+ minimum corresponds to the 1-methylallyl cation, which is 9.0 kcal/mol more stable than the cyclobutyl and the cyclopropylcarbinyl cation and 9.5 kcal/mol below the 2-methylallyl cation. These results are in excellent agreement with experimental data.

Keywords: Exobiology

Type: Journal of the American Chemical Society (ISSN 0002-7863); Volume 110; 22; 7325-8

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Structure of the 2-norbornyl cation (1989)

Koch, W. ; Liu, B. ; DeFrees, D. J.

In: Other Sources

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Exobiology

Type: Journal of the American Chemical Society (ISSN 0002-7863); Volume 111; 1527-8

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Experimental and theoretical IR spectra of the 2-norbornyl cation (1990)

DeFrees, D. J. ; Koch, W. ; Liu, B. ; [et al.]

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Exobiology

Type: Angewandte Chemie (International ed. in English) (ISSN 0570-0833); 29; 2; 183-5

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Calculations on the rate of the ion-molecule reaction between NH3(+) and H2 (1991)

Defrees, D. J. ; Koch, W. ; Herbst, Eric ; [et al.]

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Publication Date: 2019-07-12

Description: The rate coefficient for the ion-molecule reaction NH3(+) + H2 yields NH4(+) + H has been calculated as a function of temperature with the use of the statistical phase space approach. The potential surface and reaction complex and transition state parameters used in the calculation have been taken from ab initio quantum chemical calculations. The calculated rate coefficient has been found to mimic the unusual temperature dependence measured in the laboratory, in which the rate coefficient decreases with decreasing temperature until 50-100 K and then increases at still lower temperatures. Quantitative agreement between experimental and theoretical rate coefficients is satisfactory given the uncertainties in the ab initio results and in the dynamics calculations. The rate coefficient for the unusual three-body process NH3(+) + H2 + He yields NH4(+) + H + He has also been calculated as a function of temperature and the result found to agree well with a previous laboratory determination.

Keywords: ATOMIC AND MOLECULAR PHYSICS

Type: Journal of Chemical Physics (ISSN 0021-9606); 94; 12:00 PM

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