Electrostatic and charge-induced methane activation by a concerted double C-H bond insertion

Caiyun Geng; Jilai Li; Thomas Weiske; Maria Schlangen; Sason Shaik; Helmut Schwarz

doi:10.1021/jacs.6b12514

Electrostatic and charge-induced methane activation by a concerted double C-H bond insertion

Caiyun Geng, Jilai Li^*, Thomas Weiske, Maria Schlangen, Sason Shaik, Helmut Schwarz

^*Corresponding author for this work

Institute of Chemistry

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

93 Scopus citations

Abstract

A mechanistically unique, simultaneous activation of two C-H bonds of methane has been identified during the course of its reaction with the cationic copper carbide, [Cu-C]⁺. Detailed high-level quantum chemical calculations support the experimental findings obtained in the highly diluted gas phase using FT-ICR mass spectrometry. The behavior of [Cu-C]⁺/CH₄ contrasts that of [Au-C]⁺/CH₄, for which a stepwise bond-activation scenario prevails. An explanation for the distinct mechanistic differences of the two coinage metal complexes is given. It is demonstrated that the coupling of [Cu-C]⁺ with methane to form ethylene and Cu⁺ is modeled very well by the reaction of a carbon atom with methane mediated by an oriented external electric field of a positive point charge. (Figure Presented).

Original language	English
Pages (from-to)	1684-1689
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	139
Issue number	4
DOIs	https://doi.org/10.1021/jacs.6b12514
State	Published - 1 Feb 2017

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© 2017 American Chemical Society.

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abstract = "A mechanistically unique, simultaneous activation of two C-H bonds of methane has been identified during the course of its reaction with the cationic copper carbide, [Cu-C]+. Detailed high-level quantum chemical calculations support the experimental findings obtained in the highly diluted gas phase using FT-ICR mass spectrometry. The behavior of [Cu-C]+/CH4 contrasts that of [Au-C]+/CH4, for which a stepwise bond-activation scenario prevails. An explanation for the distinct mechanistic differences of the two coinage metal complexes is given. It is demonstrated that the coupling of [Cu-C]+ with methane to form ethylene and Cu+ is modeled very well by the reaction of a carbon atom with methane mediated by an oriented external electric field of a positive point charge. (Figure Presented).",

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AU - Geng, Caiyun

AU - Li, Jilai

AU - Weiske, Thomas

AU - Schlangen, Maria

AU - Shaik, Sason

AU - Schwarz, Helmut

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AB - A mechanistically unique, simultaneous activation of two C-H bonds of methane has been identified during the course of its reaction with the cationic copper carbide, [Cu-C]+. Detailed high-level quantum chemical calculations support the experimental findings obtained in the highly diluted gas phase using FT-ICR mass spectrometry. The behavior of [Cu-C]+/CH4 contrasts that of [Au-C]+/CH4, for which a stepwise bond-activation scenario prevails. An explanation for the distinct mechanistic differences of the two coinage metal complexes is given. It is demonstrated that the coupling of [Cu-C]+ with methane to form ethylene and Cu+ is modeled very well by the reaction of a carbon atom with methane mediated by an oriented external electric field of a positive point charge. (Figure Presented).

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Electrostatic and charge-induced methane activation by a concerted double C-H bond insertion

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