▎ 摘　　要

In this study, we demonstrated self-powered fastresponse ultraviolet (UV) detection based on a highly-rectifying graphene/GaN Schottky contact. The device was fabricated by mechanically transferring a monolayer graphene onto lightly-doped GaN and showed excellent Schottky behaviors, including a high rectification ratio (> 10(8)), a close-to-unity ideality factor and a relatively high Schottky barrier height (1.01 eV). At zero bias, the graphene/GaN Schottky photodiodes exhibited a strong photovoltaic response to UV illumination with a competitively short rise/decay time of 221/546 mu s. A trap-associated photo-conductive mechanism started to dominate the device's response when its bias went beyond -1 V, which could be identified from the suddenly increased responsivity and response time.