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Balancing the Photo‐Induced Carrier Transport Behavior at Two Semiconductor Interfaces for Dual‐Polarity Photodetection

Shi Fang, Danhao Wang, Yang Kang, Xin Liu, Yuanmin Luo, Kun Liang, Liuan Li, Huabin Yu, Haochen Zhang, Muhammad Hunain Memon, Boyang Liu, Zhenghui Liu, Haiding Sun

2022Advanced Functional Materials54 citationsDOI

Abstract

Abstract The carrier transport dynamics at the surface/interface of semiconductors determine the electronic and optical properties of devices. Thus, precise control of their dynamic processes while understanding the nature of these characteristics is crucial for modulating device functionalities. Here, a photoelectrochemical‐type photosensor is built using monocrystalline p‐GaN nanowires on the Si platform, which unambiguously exhibits either positive or negative photocurrent upon different light illumination. Such dual‐polarity photocurrents are attributed to photogenerated‐carrier‐transport competition at two interfaces: the GaN/electrolyte and GaN/Si interface. Particularly, a rational Pt decoration successfully accelerates the carrier migration at the GaN/electrolyte interface that breaks the original balance of carrier transport. This mechanism is further elaborated by Kelvin‐probe‐force‐microscopy characterization, which intuitively reveals the impact of Pt decoration on modulating nanowires’ surface band bending and the consequent carrier dynamics at the interfaces. These insights into the control of carrier dynamics shed light on achieving multi‐functional PEC devices built upon simple semiconductor architectures.

Topics & Concepts

Materials scienceSemiconductorOptoelectronicsPhotocurrentHeterojunctionCharge carrierKelvin probe force microscopeNanowirePhotodetectionBand bendingElectron mobilityNanotechnologyPhotodetectorAtomic force microscopyGa2O3 and related materialsZnO doping and propertiesGaN-based semiconductor devices and materials