Ultrasensitive and spectrally selective <scp>WSe</scp> <sub>2</sub> / <scp>MoS</scp> <sub>2</sub> photodetector via metal– <scp>2D</scp> interface modulation for infrared signal recognition
Hyeonmin Bong, Gihyeon Kwon, Jinsik Choe, H Y Lee, Woochan Koh, Hyeonghun Kim, Kwangsik Jeong, Sungjin Park, M.-H. Cho
Abstract
Abstract van der Waals (vdW) metal–semiconductor interfaces offer new pathways for overcoming Fermi level pinning (FLP) in 2D electronic and optoelectronic devices. Herein, we demonstrate an ultrasensitive and spectrally selective photodetector based on a WSe 2 /MoS 2 heterojunction, in which a vdW metal contact significantly suppresses FLP by minimizing mid‐gap states at the contact interface. This dramatically enhances carrier injection and transport efficiency. The photodetector exhibits narrowband wavelength discrimination as fine as 5 nm, even in the IR region, with an accuracy of over 99% in heart rate detection compared with commercial photoplethysmography systems. Our strategy establishes a universal framework for precision optical sensing and infrared signal recognition, paving the way for high‐performance intelligent optoelectronic systems. image