2D Metal–Organic Framework Cu<sub>3</sub>(HHTT)<sub>2</sub> Films for Broadband Photodetectors from Ultraviolet to Mid‐Infrared
Chun‐Ki Liu, Venkatesh Piradi, Jiajun Song, Ziru Wang, Lok Wing Wong, Eng‐Hao‐Louis Tan, Jiong Zhao, Xunjin Zhu, Feng Yan
Abstract
Abstract Cu 3 (HHTT) 2 (HHTT: 2,3,7,8,12,13‐hexahydroxytetraazanaphthotetraphene) is a novel 2D conjugated metal–organic framework (2D c‐MOF) with efficient in‐plane d–π conjugations and strong interlayer π–π interactions while the growth of Cu 3 (HHTT) 2 thin films has never been reported until now. Here, the successful fabrication of highly oriented wafer‐scale Cu 3 (HHTT) 2 thin films with a layer‐by‐layer growth method on various substrates is presented. Its semiconducting behavior and carrier transport mechanisms are clarified through temperature and frequency‐dependent conductivity measurements. Flexible photodetectors based on Cu 3 (HHTT) 2 thin films exhibit reliable photoresponses at room temperature in a wavelength region from UV to mid‐IR, which is much broader than those of solution‐processed broadband photodetectors reported previously. Moreover, the photodetectors can show a typical synaptic behavior and excellent data recognition accuracy in artificial neural networks. This work opens a window for the exploration of high‐performance and multifunctional optoelectronic devices based on 2D c‐MOFs.