Self-powered and high-performance all-fiber integrated photodetector based on graphene/palladium diselenide heterostructures
Hongwei Yang, Yihong Xiao, Kaimin Zhang, Zefeng Chen, Jintao Pan, Linqing Zhuo, Yongchun Zhong, Huadan Zheng, Wenguo Zhu, Jianhui Yu, Zhe Chen
Abstract
An all-fiber integrated photodetector is proposed and demonstrated by assembling a graphene/palladium diselenide (PdSe 2 ) Van der Waals heterostructure onto the endface of a standard optical fiber. A gold film is covered on the heterostructure working as an electrode and a mirror, which reflects back the unabsorbed residual light for further reusage. Owing to the low bandgap of PdSe 2 , the all-fiber photodetector shows a broadband photoresponse from 650 to 1550 nm with a high photoresponsivity of 6.68×10 4 AW −1 , enabling a low light detection of 42.5 pW. And the fastest temporal response is about 660 µs. Taking advantage of heterostructures, the photodetector can work in self-powered mode with the on/off ratio about 82. These findings provide new strategies for integrating two-dimensional materials into optical fibers to realize integrated all-fiber devices with multi-function applications.