High-Performance, Room Temperature, Ultra-Broadband Photodetectors Based on Air-Stable PdSe2.
Qijie LiangQixing WangQian ZhangJingxuan WeiSharon Xiaodai LimRui ZhuJunxiong HuWei WeiChengkuo LeeChorngHaur SowWenjing ZhangAndrew Thye Shen WeePublished in: Advanced materials (Deerfield Beach, Fla.) (2019)
Photodetection over a broad spectral range is crucial for optoelectronic applications such as sensing, imaging, and communication. Herein, a high-performance ultra-broadband photodetector based on PdSe2 with unique pentagonal atomic structure is reported. The photodetector responds from visible to mid-infrared range (up to ≈4.05 µm), and operates stably in ambient and at room temperature. It promises improved applications compared to conventional mid-infrared photodetectors. The highest responsivity and external quantum efficiency achieved are 708 A W-1 and 82 700%, respectively, at the wavelength of 1064 nm. Efficient optical absorption beyond 8 µm is observed, indicating that the photodetection range can extend to longer than 4.05 µm. Owing to the low crystalline symmetry of layered PdSe2 , anisotropic properties of the photodetectors are observed. This emerging material shows potential for future infrared optoelectronics and novel devices in which anisotropic properties are desirable.