First-principles simulation of a photoinduced carbocation formation

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • D. J. Coughtrie
  • Irmgard Frank
  • Jana Friedrichs

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OriginalspracheEnglisch
Seiten (von - bis)69-73
Seitenumfang5
FachzeitschriftChemical Physics
Jahrgang402
Frühes Online-Datum10 Apr. 2012
PublikationsstatusVeröffentlicht - 19 Juni 2012

Abstract

The photodissociation of diphenylmethyl chloride (DPMCl) can lead to the formation of radicals or ions depending on the environment. We use first-principles molecular dynamics simulations to study the photochemistry of DPMCl in the gas phase and in aqueous solution. In the gas phase simulations the photoexcitation leads to the formation of a radical pair. For the photoreaction of DPMCl in a polar solution a two-step process is observed: the actual photoreaction proceeds diabatically and leads to the formation of a radical pair. This radical pair is subsequently transformed into an ion pair via an electron transfer reaction. The ultrafast process explains the experimentally observed formation of ions on a sub-picosecond timescale.

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First-principles simulation of a photoinduced carbocation formation. / Coughtrie, D. J.; Frank, Irmgard; Friedrichs, Jana.
in: Chemical Physics, Jahrgang 402, 19.06.2012, S. 69-73.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Coughtrie DJ, Frank I, Friedrichs J. First-principles simulation of a photoinduced carbocation formation. Chemical Physics. 2012 Jun 19;402:69-73. Epub 2012 Apr 10. doi: 10.1016/j.chemphys.2012.04.003
Coughtrie, D. J. ; Frank, Irmgard ; Friedrichs, Jana. / First-principles simulation of a photoinduced carbocation formation. in: Chemical Physics. 2012 ; Jahrgang 402. S. 69-73.
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AU - Frank, Irmgard

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N1 - Funding Information: We thank Herbert Mayr and Regina de Vivie-Riedle for bringing the subject to our attention and for valuable discussions. This work was supported by the Deutsche Forschungsgemeinschaft : SFB 749 ‘Dynamik und Intermediate molekularer Transformationen’ and project FR 1246/3–1. Part of the calculations were performed at the HLRN supercomputing system (project nic00017).

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