Abstract
Emerging van der Waals heterojunctions (vdWH) containing 2D materials have shown exciting functionalities that surpass those of traditional devices based on bulk materials. In this Communication, a report on the properties of a 2D sulfide/oxide hybrid vdWH based on n-type molybdenum disulfide (MoS2) and p-type tin monoxide (SnO) is presented, with promising rectification, thermal-sensing, and photosensing performance. Specifically, the hybrid SnO/MoS2 vdWH shows static rectification ratio of 2 x 10(2) with ideality factor of 2.3, and can operate at 100 Hz with good stability. The vdWH shows good temperature stability with reversible and reproducible current levels up to 110 degrees C, indicating its potential for thermal sensing applications. The sensitivity of current variation is calculated to be 0.0144 dec degrees C-1. Finally, maximum responsivity of 8.17 mA W-1 and external quantum efficiency of 2.14% have been achieved in photovoltaic measurements. The results suggest that MoS2-SnO hybrid vdWH are promising for various sensing applications.