This article aims at laying the foundation for the development of electronic structure–property relationships in the field of charge-transfer (CT) organic semiconductors by studying the low-frequency phonon response of donor–acceptor (DA) compounds. In this article, it is shown and discussed how and why phonon frequencies and their delocalization depend on the interplay between single-molecule properties and crystal structures. These results are obtained by combining results from state-of-the-art quantum–mechanical calculations, carried out within both localized orbitals and a plane wave paradigm, with simple classical models. CT compounds obtained from perylene (Pery) as the donor and FnTCNQ (n = 0, 4) as the acceptors are considered.
Charge Transfer in Molecular Cocrystals: A Plane Wave vs Localized-Orbital View─Structural Information Obtained from Calculated Raman and IR Phonons / Biffoli, Fabio; Vanossi, Davide; Venuti, Elisabetta; Salzillo, Tommaso; Bonechi, Marco; Innocenti, Massimo; Pagliai, Marco; Fontanesi, Claudio. - In: JOURNAL OF PHYSICAL CHEMISTRY. C. - ISSN 1932-7447. - ELETTRONICO. - 128:(2024), pp. 14046-14055. [10.1021/acs.jpcc.4c03470]
Charge Transfer in Molecular Cocrystals: A Plane Wave vs Localized-Orbital View─Structural Information Obtained from Calculated Raman and IR Phonons
Biffoli, Fabio;Bonechi, Marco;Innocenti, Massimo;Pagliai, Marco;
2024
Abstract
This article aims at laying the foundation for the development of electronic structure–property relationships in the field of charge-transfer (CT) organic semiconductors by studying the low-frequency phonon response of donor–acceptor (DA) compounds. In this article, it is shown and discussed how and why phonon frequencies and their delocalization depend on the interplay between single-molecule properties and crystal structures. These results are obtained by combining results from state-of-the-art quantum–mechanical calculations, carried out within both localized orbitals and a plane wave paradigm, with simple classical models. CT compounds obtained from perylene (Pery) as the donor and FnTCNQ (n = 0, 4) as the acceptors are considered.
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