Intersystem Crossing Processes in Nonplanar Aromatic Heterocyclic Molecules

Overview

Journal J Phys Chem A

Publisher American Chemical Society

Specialty Chemistry

Date 2007 Oct 4

PMID 17910425

Citations 29

Authors

Karin Schmidt

Sergio Brovelli

Veaceslav Coropceanu

David Beljonne

Jerome Cornil

Cristina Bazzini

Tullio Caronna

Riccardo Tubino

Francesco Meinardi

Zhigang Shuai

Jean-Luc Bredas

Affiliations

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Abstract

A comprehensive study of the photophysical properties of a series of monoaza[5]helicenes is presented on the basis of joint optical spectroscopy and quantum chemistry investigations. The molecules have been characterized by absorption and CW/time-resolved luminescence measurements. All quantities related to spin-orbit-coupling processes, such as intersystem crossing rates and radiative phosphorescence lifetimes, were found to depend strongly on the nitrogen position within the carbon backbone. Density functional theory and semiempirical quantum-chemical methods were used to evaluate the molecular geometries, the characteristics of the excited singlet and triplet states, and the spin-orbit coupling matrix elements. We demonstrate that the magnitude of spin-orbit coupling is directly correlated with the degree of deviation from planarity. The trends from the calculated photophysical quantities, namely, radiative fluorescence and phosphorescence decay rates and intersystem crossing rates, of the mono-aza-helicenes are fully consistent with experiment.

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