微尺度化学
机械容积
材料科学
光电子学
纳米尺度
纳米技术
纳米棒
纳米传感器
光发射
光学
光强度
计算机科学
可扩展性
杠杆(统计)
发光
微流控
像素
发光二极管
结构光
超材料
结构化
灵敏度(控制系统)
光学力
作者
Xiaole Ma,Jiaxiang Wang,Jing Li,Yuhan Ren,Di Wu,Zhijuan Su,Jie Ma,Zhuoqing Yang,Guifu Ding,Faheng Zang
标识
DOI:10.1038/s41467-025-64558-w
摘要
Mechanoluminescence (ML), with its mechano-optical properties, is promising in electronics, photonics, and advanced sensing technologies. However, current thin-film mechanoluminescent devices can hardly provide any pixelated force information attributed to the bottlenecks of their low overall light emission efficiency and poor luminescent contrast. This prevents mechanoluminescent devices from advancing further to full-fledged programmable visual force sensors. Here, we show hierarchical multiscale structures enhanced mechanoluminescent force sensors that leverage the stress-light interaction of multiscale-structured arrays to achieve user-defined pixelated force sensitivity on a uniform ML membrane, delivering a high-resolution output of 637 pixels per inch (PPI). Combining stress localization from the microscale structures and light extraction enhancement from the nanoscale patterns, the ML force-sensing membrane produces a dynamic contrast pattern at 521 nm using a single light-centering material with 366% of light intensity comparing to the bare film. The further demonstration of such multiscale-structured ML in creating force-sensitive counterfeits showcases its potential in developing pixelated and programmable force-light interaction systems.
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