Self‐Powered and Broadband Photodetector Based on SnS₂/ZnO_1−xS_x Heterojunction

Abstract: is constructed by utilizing an integrated nanosystem consisting of an energy harvesting or storage unit and a light sensor. The simplified structure and maintenancefree features of the first category endow the low-cost advantage as compared with the second one. Furthermore, the heterojunction-based PDs generally possess superior performance compared with PEC and the integrated nanosystem. [10,11] In addition, the vertical heterojunction configuration is considered as one of the most essential cornerstones of h… Show more

“…Achieved by traditional photovoltaic effect by means of Schottky junctions, p–n junctions, and heterojunctions, self‐powered photodetectors, which can operate without outer power source, have attracted increasing attention recently. [ 9 ] With the advantages of light weight, self‐sufficient, and good long‐term properties, self‐powered photodetectors show great potential in many aspects, such as functional nanosystems, [ 10 ] light‐wave communications, [ 11 ] wire‐free route for artificial vision, [ 12 ] and long‐term unattended wastewater and air‐pollution monitoring. [ 13 ] However, despite the advantages of being without outer energy, most self‐powered photodetectors suffer from low photoresponsivity, hindering their commercial applications.…”

Self‐Powered Broad Spectral Photodetector with Ultrahigh Responsivity and Fast Response Based on Sb₂Se₃/VO₂ Heterojunction

“…Achieved by traditional photovoltaic effect by means of Schottky junctions, p–n junctions, and heterojunctions, self‐powered photodetectors, which can operate without outer power source, have attracted increasing attention recently. [ 9 ] With the advantages of light weight, self‐sufficient, and good long‐term properties, self‐powered photodetectors show great potential in many aspects, such as functional nanosystems, [ 10 ] light‐wave communications, [ 11 ] wire‐free route for artificial vision, [ 12 ] and long‐term unattended wastewater and air‐pollution monitoring. [ 13 ] However, despite the advantages of being without outer energy, most self‐powered photodetectors suffer from low photoresponsivity, hindering their commercial applications.…”

Self‐Powered Broad Spectral Photodetector with Ultrahigh Responsivity and Fast Response Based on Sb₂Se₃/VO₂ Heterojunction

“…[ 123 ] By a facile sputtering method, type II band alignment of SnS 2 /ZnO 1− x S x self‐powered PD shows a photodetectivity of 5.09 × 10 10 Jones, a high I on / I off ratio of 1.08 × 10 5 at 365 nm, and a fast response speed with a rise time of 49.51 ms and a decay time of 25.93 ms (Figure 9e). [ 25 ] The coupling mechanism of piezo‐phototronic effect and ferroelectric polarization in the La‐doped bismuth ferrite film (BLFO)/n‐type zinc oxide (ZnO) nanowire heterojunction, makes the performance of the PD obviously enhanced under 405 nm laser illumination. [ 39 ]…”

“…Reproduced with permission. [ 25 ] Copyright 2020, Wiley‐VCH. f) The GaN:layered rGO hybrid heterojunction.…”

“…Depending on the charge separation features of the interface, this PD type can be further divided into three types: p–n junction PDs, Schottky junction PDs, and photoelectrochemical (PEC) PDs. [ 25 ] The second category is designed to utilize an integrated nanosystem, which consists of an energy harvesting or storage unit and a light sensor. By comparison, the maintenance‐free and simplified structure of the first category is less expensive and self‐powered PEC PDs usually operate in a liquid medium, which seriously limits the scope of their applications.…”

Recent Progress of Methods to Enhance Photovoltaic Effect for Self‐Powered Heterojunction Photodetectors and Their Applications in Inorganic Low‐Dimensional Structures

“…The second is designed with integrated nanosystems that include an energy harvesting or storage unit as well as a light sensor. 11 . The maintenance free features and simplified structure of the first category has a low-cost advantage over the second one.…”

CdS nanobelt-based self-powered flexible photodetectors with high photosensitivity