光探测
光电探测器
响应度
光电子学
材料科学
实现(概率)
计算机科学
可扩展性
半导体
碲
宽带
电子迁移率
电压
偏压
光电导性
光电二极管
鉴定(生物学)
波形
响应时间
结晶
探测器
单晶
Crystal(编程语言)
电子工程
晶体生长
晶体管
石墨烯
发光二极管
噪音(视频)
放大器
作者
Shuo Liu,Xinyun Zhou,Wanglong Wu,Junda Yang,Ruiying Ma,Le Yuan,Lingjie Zhao,Mianzeng Zhong
摘要
The controllable growth of large-sized and high-quality semiconductor single crystals is an important guarantee for the realization of high-performance electronic and optoelectronic devices. Herein, we synthesized layered BiOI transparent single crystals through a tellurium-assisted chemical vapor transport strategy. Systematic investigation reveals that tellurium acts as a critical transport agent, directly modulating the crystallization dynamics and enabling the growth of high-quality 1-cm single crystals with precise size control. The layered BiOI crystals demonstrate excellent broadband (254–940 nm) photoresponse performance, achieving a remarkable responsivity of 123.7 A·W−1 and specific detectivity of 7.2 × 1013 Jones. Notably, the implementation of gate voltage regulation allows dynamic control of carrier transport mechanisms, achieving efficient regulation of the photoresponse of the device. This unique gate-tunable characteristic enables dual-mode operation in image recognition systems, simultaneously supporting both high-sensitivity detection and programmable contrast enhancement. The combination of scalable crystal growth and multifunctional optoelectronic properties positions BiOI as a promising candidate for next-generation intelligent photodetection technologies.
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