光电探测器
材料科学
响应度
光电子学
计算机科学
可扩展性
聚二甲基硅氧烷
功率(物理)
干扰(通信)
红外线的
信号(编程语言)
暗电流
手势识别
手势
近红外光谱
纳米技术
弯曲
信号处理
响应时间
有机太阳能电池
作者
Baofa Lan,Xianfeng Jin,Zhenhua Yang,Jia Wang,Wenying Zhou,Ying-Shi Guan,Jian Zhu,Zhaofeng Wang,Bin Kan
摘要
The development of high-performance organic photodetectors (OPDs) currently depends on highly toxic halogenated solvents for processing and on an external power source to drive illumination. Here, we report high-sensitivity rigid and flexible self-powered OPDs processed with the environmentally friendly solvent o-xylene. Especially, the flexible OPD achieves a record responsivity of 0.55 A W-1, along with an ultralow dark current of 0.44 nA cm-2 and excellent bending stability. By further integrating a mechanoluminescent (ML) unit as a self-powered light source, we demonstrate a ML-OPD sensing system that operates without external power and illumination. Notably, the visible-near infrared broad spectral response of the OPD exhibits a high degree of overlap with ZnS:Cu and other multicolor ML units, ensuring efficient inter-unit optoelectronic energy transform. The ML-OPD system demonstrates dual functionality for real-time motion sensing and gesture recognition by converting mechanical finger flexion/extension (0°-45°) into quantifiable current signals to track continuous motions, while utilizing distinct combinatorial current signatures from multi-finger pattern actuation to execute gesture recognition feedback without visual assistance. This integration of self-powered mechano-optoelectronic transduction establishes a new paradigm for distributed optoelectronic sensing, with future scalability toward multimodal human-machine interaction (HMI) systems requiring ultralow-power operation and spatial adaptability.
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