Self-powered photodetector based on vertical MoO ₃ /MoS ₂ hetero-structure with gate tunable photo-response

Abstract: Tunable photo-response is highly desirable by photodiodes for future optoelectronic applications. As compared to bulk semiconducting materials, the atomically thin two-dimensional (2D) materials may be one of the potential candidates to fabricate such adaptive photodiodes, since they possess not only excellent but also widely tunable optoelectronic properties. The most extensively applied device structure for the 2D materials based photodiodes is the vertically aligned van der Waals heterostructure. However, f… Show more

“…An electric field is produced at a Schottky junction, p–n junction, or p–i–n junction, which facilitates the e–h pair generation and transportation. Several studies have been published on self-powered photodetectors, − which reduce the dependence on the external bias. In our device, the CTL section operates in a self-powered mode ( V SD = 0) at V GS > 0, which further reduces the power consumption.…”

Solution-Processed Vertical Field-Effect Transistor with Separated Charge Generation and Charge Transport Layers for High-Performance Near-Infrared Photodetection

“…An electric field is produced at a Schottky junction, p–n junction, or p–i–n junction, which facilitates the e–h pair generation and transportation. Several studies have been published on self-powered photodetectors, − which reduce the dependence on the external bias. In our device, the CTL section operates in a self-powered mode ( V SD = 0) at V GS > 0, which further reduces the power consumption.…”

Solution-Processed Vertical Field-Effect Transistor with Separated Charge Generation and Charge Transport Layers for High-Performance Near-Infrared Photodetection

“…The oxygen defects in AlN supported the transportation of photogenerated charge carriers in the hybrid photodetector. Selfpowered photodetectors using a vertical MoO 3 /MoS 2 heterojunction 434 have been fabricated which showed photoresponsivity of 670 mA W À1 and detectivity of 4.77 Â 10 10 Jones under 0 V bias and current I on /I off current ratio of 10 3 . MoS 2(1Àx) Se 2x nanostructured alloys have been used for developing photodetectors by atomic-level tailoring.…”

A review of molybdenum disulfide (MoS₂) based photodetectors: from ultra-broadband, self-powered to flexible devices

“…109 Based on this strategy, a PV device was fabricated by directly depositing a thin layer of MoO 3 onto MoS 2 , reaching an Z value of 3.5%. 247 Despite these progresses, the application of 2D nonlayered materials in prototypical SCs, including 1st-, 2nd-, and 3rd-generation SCs, has not been established yet, probably due to the difficulties in producing 2D nonlayered materials on a large scale. 109 Therefore, these materials will not be the specific subject of discussion in the present work.…”

Solution-processed two-dimensional materials for next-generation photovoltaics