A High-Performance Nanoscale Near-Infrared Photodetector
Optical sensors operating in the Near Infrared (NIR) are important for applications in imaging, photodetectors, and biological sensors. Notably, recent reports on the synthesis of high quality, large areas of graphene has motivated researchers to search for other 2D materials with properties suitable for NIR devices.
Now, Abdelkader Abderrahmane and colleagues at the University of Electro-Communications, Tokyo in collaboration with researchers at Chosun University, Korea, describe the optoelectronics characteristics of molybdenum selenide (MoSe2) phototransistors for applications to photodetectors.
The application of gate voltages to the devices yielded a maximum photoresponsivity 238A/W, an external quantum efficiency (EQE) of 37,745% under 785nm light.
The researchers state: “our device is one of the best high-performance nanoscale near-infrared photodetectors based on multilayered two-dimensional materials.”
The devices were fabricated using few layered MoSe2 with a thickness of ~44nm that was exfoliated from natural MoSe2 onto thermally oxidized silicon substrates with metallic strips acting as back gates. The transistor channel width and length were 50 and 20μm, and the charge mobility was be 5.1cm²/V/s.
Electrical measurements indicated that the devices operated in the so-called accumulation mode and with a pinch off voltage of -40V.
The combination of the 1.1eV bandgap of MoSe2 and its high optical absorption compared to MoS2 is expected to offer wide ranging applications in optoelectronics.
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