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A new approach for broadband photosensing based on Ag2Se/Si heterojunction tuned by Pyro-phototronic effect

Jikui Ma, Mingjing Chen, Shuang Qiao, Siyang Guo, Jianlong Chang, Guangsheng Fu, Shufang Wang

2023Nano Energy49 citationsDOIOpen Access PDF

Abstract

With its high carrier mobility and low effective mass characteristics, silver selenide (Ag 2 Se) emerges as an attractive candidate for use in optoelectronic devices . However, the relatively low responsivity , slow response speed, and need for a large external bias largely limit their practical applications. In this manuscript, a newly photodetector (PD) is fabricated based on the n-Ag 2 Se/p-Si heterojunction . It is observed that this PD exhibits a broadband response range of 405–1064 nm at zero bias, and the best responsivity ( R ) and detectivity ( D ) are obtained to be 3.04 mA/W and 1.67 × 10 10 Jones at 1064 nm, respectively, demonstrating its great potential in high-performance self-powered near-infrared (NIR) PD. More importantly, the light-induced pyroelectric effect, which can be employed to modulate the photoelectric processes and improve the photoresponse, is found in the Ag 2 Se film due to the imperfect orthorhombic structure. When the Pyro-phototronic effect is introduced in the heterojunction , the R and D of the PD are significantly enhanced to 43.32 mA/W and 1.75 × 10 11 Jones with an argument of 1425 % , respectively. An ultrafast response time of 64/62 μs is simultaneously achieved under the illumination of a 400 Hz-pulsed laser, the performances of which are much better than those of previously reported Ag 2 Se-based heterostructure PDs. Besides, the response range is broadened beyond the bandgap of the heterojunction to a near-infrared region of 1550 nm. This study provides a novel pyroelectric material-based self-powered broadband PD and also gives a great promise for designing high-performance infrared ultrafast PD based on the Pyro-phototronic effect.

Topics & Concepts

Materials scienceResponsivityHeterojunctionOptoelectronicsPhotodetectorPhotoelectric effectQuantum tunnellingBroadbandUltrashort pulseSpecific detectivitySelenideLaserOpticsPhysicsSeleniumMetallurgyZnO doping and propertiesQuantum Dots Synthesis And PropertiesNanowire Synthesis and Applications