Molecular Orbital-Based Design of π-Conjugated Organic Materials

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Article pubs.acs.org/JPCC

Molecular Orbital-Based Design of π‑Conjugated Organic Materials with Small Internal Reorganization Energy: Generation of Nonbonding Character in Frontier Orbitals Wei-Chih Chen†,‡ and Ito Chao*,† †

Institute of Chemistry, Academia Sinica, Taipei 115, Taiwan Graduate Institute of Applied Science and Technology, National Taiwan University of Science and Technology, Taipei 106, Taiwan



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ABSTRACT: One of the key parameters determining the rate of electron transfer is reorganization energy, an energy associated with geometry change during electron/hole transfer between molecules. To achieve efficient electron transfer, molecules with small reorganization energy are pursued, but the design guidelines remain elusive. It has been shown that a π-conjugated organic molecule with strong local nonbonding character in frontier orbitals may have small internal reorganization energy (λ). To explore how one can introduce such character in frontier orbitals so as to design high-performance materials, in this study we employed fragment molecular orbital analysis and pairing theorem to understand why the frontier orbital of phenalenyl radical had perfect local nonbonding character. The principles learned from phenalenyl radical lead to the design of various closed-shell π-conjugated skeletons with small λ. Functionalization of these skeletons afforded potential n-type materials with small λ (