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Wafer-scale vertical injection III-nitride deep-ultraviolet light emitters

Jiaming Wang, Ji Chen, Jing Lang, Fujun Xu, Lisheng Zhang, Xiangning Kang, Zhixin Qin, Xuelin Yang, Ning Tang, Xinqiang Wang, Weikun Ge, Bo Shen

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

A ground-breaking roadmap of III-nitride solid-state deep-ultraviolet light emitters is demonstrated to realize the wafer-scale fabrication of devices in vertical injection configuration, from 2 to 4 inches. The epitaxial device structure is stacked on a GaN template instead of conventionally adopted AlN, where the primary concern of the tensile strain for Al-rich AlGaN on GaN is addressed via an innovative decoupling strategy, making the device structure decoupled from the underlying GaN template. Moreover, the strategy provides a protection cushion against the stress mutation during the removal of substrates. As such, large-sized wafers can be obtained without surface cracks, even after the removal of the sapphire substrates by laser lift-off. Wafer-scale fabrication of 280 nm vertical injection deep-ultraviolet light-emitting diodes is eventually demonstrated, where a light output power of 65.2 mW is achieved at a current of 200 mA, largely thanks to the significant improvement of light extraction. This work will definitely speed up the application of III-nitride solid-state deep-ultraviolet light emitters featuring high performance and scalability. The efficiency of deep-ultraviolet light sources is critical for applications like disinfection. Here, the authors employ a novel decoupling strategy using GaN templates to fabricate 280 nm vertical injection diodes, achieving a light output power of 65.2 mW at 200 mA.

Topics & Concepts

UltravioletWaferOptoelectronicsNitrideMaterials scienceScale (ratio)Ultraviolet lightNanotechnologyPhysicsQuantum mechanicsLayer (electronics)GaN-based semiconductor devices and materialsPhotocathodes and Microchannel PlatesSemiconductor Quantum Structures and Devices