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Benzothiadiazole‐Fused Cyanoindone: A Superior Building Block for Designing Ultra‐Narrow Bandgap Electron Acceptor with Long‐Range Ordered Stacking

Nuo Zhang, Tianyi Chen, Yaokai Li, Shuixing Li, Shuixing Li, Jinyang Yu, Heng Liu, Mengting Wang, Xiu‐Kun Ye, Xueyan Ding, Xinhui Lu, Chang‐Zhi Li, Haiming Zhu, Minmin Shi, Hongzheng Chen

2024Angewandte Chemie International Edition24 citationsDOI

Abstract

Abstract There are great demands of developing ultra‐narrow bandgap electron acceptors for multifunctional electronic devices, particularly semi‐transparent organic photovoltaics (OPVs) for building‐integrated applications. However, current ultra‐narrow bandgap materials applied in OPVs, primarily based on electron‐rich cores, exhibit defects of high‐lying energy levels and inferior performance. We herein proposed a novel strategy by designing the benzothiazole‐fused cyanoindone (BTC) unit with ultra‐strong electron‐withdrawing ability as the terminal to synthesize the acceptor BTC‐2. The BTC unit imparts red‐shifted absorption up to 1000 nm to BTC‐2, attributed to enhanced intramolecular charge transfer and the quinoid resonance effect. Additionally, BTC‐2 features deep‐lying energy levels with the highest occupied molecular orbital level of −5.81 eV, due to the ultra‐strong electron‐withdrawing ability of BTC. Furthermore, BTC‐2 exhibits long‐range ordering in both molecular packing and macroscopic blend morphology, resulting from shoulder‐to‐shoulder packing of two BTC units, leading to an ultra‐long exciton lifetime over 1.1 ns. These superiorities facilitated a 17.17 % efficiency in the binary OPV device with an extremely high photocurrent of 30.34 mA cm −2 , representing the best performance for ultra‐narrow bandgap electron acceptors, and a record light utilization efficiency of 4.88 % in binary semi‐transparent systems. Overall, BTC is a superior building block for designing ultra‐narrow bandgap electron acceptors.

Topics & Concepts

Materials scienceBand gapAcceptorPhotocurrentStackingOrganic solar cellElectron acceptorOptoelectronicsExcitonHOMO/LUMOIntramolecular forceNanotechnologyChemistryPhotochemistryMoleculeCondensed matter physicsPhysicsComposite materialPolymerOrganic chemistryStereochemistryOrganic Electronics and PhotovoltaicsNanowire Synthesis and ApplicationsSynthesis and properties of polymers