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Photochemistry of CF3Cl: Quenching of Charged Fragments Is Caused by Nonadiabatic Effects

For the first time, high-level multireference electronic structure calculations have been performed to study the photochemistry of CF3Cl, allowing a comprehensive interpretation and assignment of experimental data concerning fluorescence, ion-pair formation, and generation of CF3 fragments in severa...

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Published in:	Journal of chemical theory and computation 2018-09, Vol.14 (9), p.4844-4855
Main Authors:	de Medeiros, Vanessa C, de Andrade, Railton B, P. Rodrigues, Gessenildo, Bauerfeldt, Glauco F, Ventura, Elizete, Barbatti, Mario, do Monte, Silmar A
Format:	Article
Language:	English
Subjects:	Chemical Sciences or physical chemistry Theoretical and
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container_issue	9
container_start_page	4844
container_title	Journal of chemical theory and computation
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creator	de Medeiros, Vanessa C de Andrade, Railton B P. Rodrigues, Gessenildo Bauerfeldt, Glauco F Ventura, Elizete Barbatti, Mario do Monte, Silmar A
description	For the first time, high-level multireference electronic structure calculations have been performed to study the photochemistry of CF3Cl, allowing a comprehensive interpretation and assignment of experimental data concerning fluorescence, ion-pair formation, and generation of CF3 fragments in several electronic states. All studied dissociation channels correlate either with Cl or Cl– in the ground state. On the other hand, a CF3 fragment can be generated either in the ground or excited state. A rationalization for the nonadiabatic relaxation of CF3Cl, including the formation of an (n4s) stable state and internal conversion at multiple-state intersections, has been provided. Our results explain the anomalous quenching of a charged fragment after low-energy excitation, a fact experimentally observed by separate groups. We show that the CF3 +···Cl– ion pair undergoes an internal conversion to the ground state, producing neutral CF3 and Cl fragments. The results also allow understanding as to why CF3Cl is usually a nonemitting species and how UV emission could be induced.
doi_str_mv	10.1021/acs.jctc.8b00457
format	article
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title	Photochemistry of CF3Cl: Quenching of Charged Fragments Is Caused by Nonadiabatic Effects
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