Efficient Multiexciton State Generation in Charge-Transfer-Coupled Perylene Bisimide Dimers Via Structural Control

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2020 Apr 9

PMID 32267155

Citations 21

Authors

Yongseok Hong

Juno Kim

Woojae Kim

Christina Kaufmann

Hyungjun Kim

Frank Wurthner

Dongho Kim

Affiliations

Soon will be listed here.

Abstract

The singlet fission (SF) process is generally defined as the conversion of one singlet exciton (S) into two triplet excitons (2·T), which has the potential to overcome thermalization losses in the field of photovoltaic devices. Among the applicable compounds for SF-based photovoltaic devices, perylene bisimide (PBI) is one of the best candidates because of its electronic tunability and photostability. However, the strategy for efficient SF in PBIs remains ambiguous because of numerous competing relaxation pathways in PBI-based molecular materials. In this regard, for the first time, we observed the SF mechanism in PBI dimers by controlling the intrinsic factor (exciton coupling) and the external environment (solvent polarity and viscosity). Time-resolved spectroscopic measurements and quantum chemical simulations reveal that efficient SF occurs through the charge-transfer-assisted mechanism, entailing a large structural fluctuation. Our findings not only highlight the SF mechanism in PBI dimers but also suggest the factors responsible for an efficient SF process, which are important considerations in the design of molecular materials for photovoltaic devices.

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