Issue 49, 2018, Issue in Progress

Theoretical-computational modeling of charge transfer and intersystem crossing reactions in complex chemical systems

Abstract

In this paper we present a theoretical-computational methodology specifically aimed at describing processes involving internal conversion or intersystem crossing, from atomistic (semiclassical) simulations and, hence, very suitable for treating complex atomic-molecular systems. The core of the presented approach is the evaluation of the diabatic perturbed energy surfaces of a portion of the whole system, treated at the quantum level and therefore preventively selected, in semi-classical interaction with the atomic-molecular environment. Subsequently, the estimation of the coupling between the diabatic surfaces and the inclusion of the obtained observables within a properly designed kinetic model allows the reconstruction of the whole phenomenology directly comparable to the experimental (typically kinetic) data. Application to two systems has demonstrated that the proposed approach can represent a valuable tool, somewhat complementary to other methods based on explicit quantum-dynamical approaches, for the theoretical-computational investigations of large and complex atomic-molecular systems.

Graphical abstract: Theoretical-computational modeling of charge transfer and intersystem crossing reactions in complex chemical systems

Supplementary files

Article information

Article type
Paper
Submitted
07 May 2018
Accepted
23 Jul 2018
First published
06 Aug 2018
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2018,8, 27900-27918

Theoretical-computational modeling of charge transfer and intersystem crossing reactions in complex chemical systems

A. Amadei and M. Aschi, RSC Adv., 2018, 8, 27900 DOI: 10.1039/C8RA03900C

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