Ultrahigh-sensitivity organic photodetectors processed with a non-halogenated solvent for a self-powered mechano-optoelectronic coupled sensing system

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
出处
期刊:Materials horizons [Royal Society of Chemistry]
标识
DOI:10.1039/d5mh02214b
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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