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Enhanced responsivity and detectivity of fast WSe2 phototransistor using electrostatically tunable in-plane lateral p-n homojunction

Sayantan Ghosh, Abin Varghese, Kartikey Thakar, Sushovan Dhara, Saurabh Lodha

2021Nature Communications131 citationsDOIOpen Access PDF

Abstract

Abstract Layered transition metal dichalcogenides have shown tremendous potential for photodetection due to their non-zero direct bandgaps, high light absorption coefficients and carrier mobilities, and ability to form atomically sharp and defect-free heterointerfaces. A critical and fundamental bottleneck in the realization of high performance detectors is their trap-dependent photoresponse that trades off responsivity with speed. This work demonstrates a facile method of attenuating this trade-off by nearly 2x through integration of a lateral, in-plane, electrostatically tunable p-n homojunction with a conventional WSe 2 phototransistor. The tunable p-n junction allows modulation of the photocarrier population and width of the conducting channel independently from the phototransistor. Increased illumination current with the lateral p-n junction helps achieve responsivity enhancement upto 2.4x at nearly the same switching speed (14–16 µs) over a wide range of laser power (300 pW–33 nW). The added benefit of reduced dark current enhances specific detectivity ( D* ) by nearly 25x to yield a maximum measured flicker noise-limited D* of 1.1×10 12 Jones. High responsivity of 170 A/W at 300 pW laser power along with the ability to detect sub-1 pW laser switching are demonstrated.

Topics & Concepts

ResponsivityHomojunctionPhotodiodeOptoelectronicsMaterials sciencePhotodetectorLaserPhotocurrentOpticsSpecific detectivityHeterojunctionPhysics2D Materials and ApplicationsPerovskite Materials and ApplicationsMXene and MAX Phase Materials
Enhanced responsivity and detectivity of fast WSe2 phototransistor using electrostatically tunable in-plane lateral p-n homojunction | Litcius