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A Selfa??Powered Higha??Performance UV Photodetector Based on Corea??Shell GaN/MoO <sub/>3a??</sub><i> <sub/>x</sub></i> Nanorod Array Heterojunction
摘要: Self-powered UV photodetectors are highly desirable for applications in space communications and environmental monitoring. However, most self-powered UV photodetectors exhibit unimpressive performance in weak signal detection. Herein, a self-powered UV photodetector based on the core–shell GaN/MoO3–x nanorod array (NRA) heterojunction system is demonstrated. Homogeneous MoO3–x layers are deposited on GaN NRAs by a simple one-step physical vapor deposition method. The photodetector device shows an ultrahigh specific detectivity of 2.7 × 1015 Jones at 355 nm without any power supply. Further analyses reveal a responsivity of 160 A W?1 and a high UV–vis rejection ratio (R355 nm/R400 nm) of 2.0 × 104 under zero bias. The self-powered device also has a fast response speed with a rise/fall time of 73/90 μs. As a result, the self-powered photodetector, featuring ultrahigh detectivity and responsivity along with fast response, exhibits great potential for applications in next-generation UV detection. The core–shell NRA structure heterojunction design provides a valuable direction for realizing nanoscale self-powered UV photodetectors.
关键词: core–shell nanorod arrays,UV photodetectors,ultrahigh detectivity,self-powered devices
更新于2025-09-23 15:21:01
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Enhanced PEC performance of hematite photoanode coupled with bimetallic oxyhydroxide NiFeOOH through a simple electroless method
摘要: The oxygen evolution reaction (OER) is one important bottleneck in the development of economical photoelectrodes. Herein, we firstly prepared bimetallic oxyhydroxide NiFeOOH layer on Fe2O3 photoanode through a simple electroless ligand-regulated oxidation method in order to build highly-matched semiconductor/cocatalyst interface. Benefited from the accelerated OER kinetics and low overpotential of bimetallic oxyhydroxide NiFeOOH, the resultant Fe2O3/NiFeOOH core-shell with strongly-bound heterojunction interface possesses better visible light absorption, enhanced photocurrent density (1.83 mA/cm2 at 1.23 VRHE) and good stability than bare Fe2O3 and semi-FeOOH and NiOOH decorated Fe2O3 photoanodes. We believe this work provides a new pathway for designing high-quality contact interface of various photoelectrode/catalyst.
关键词: electroless ligand-regulated oxidation,photoelectrochemical water splitting,Fe2O3,core-shell nanorod arrays,NiFeOOH
更新于2025-09-12 10:27:22