报告主题:Mechanoluminescence-Enabled All-Optical Multimodal Sensing, Synaptic Processing, and Defect-Engineered Mechanical Memory
报告嘉宾:董林(教授,郑州大学)
时 间:2026年6月29日(周一)下午2点
地 点:香蕉视频
B2-536会议厅
报告人简介
董林,男,博士,郑州大学二级教授。1998年及2001年于吉林大学化学系获学士及硕士学位,2005年毕业于中国科学院长春光学精密机械与物理研究所,获理学博士学位;2005年至今郑州大学工作,2011~2012年美国佐治亚理工学院访问学者,2015年美国加州大学圣迭戈分校高级访问学者,2017-2018年日本产综研/九州大学访问教授。长期致力于压电光电子学效应与微纳米光电器件研究。纵向主持国家自然科学基金6项等,产业化方面主持郑州市协同创新重大专项1项,研发产品在国内首家通过工业级认证,两个型号通过车规级认证,合作上市企业新增利润1.65亿元。以通讯/第一作者发表论文100余篇,其中中科院一区80余篇,包括Adv. Mater. 10篇、Matter 1篇、Light Sci. Appl. 1篇、Nano Energy 10篇等,ESI高被引11篇,总被引11500余次,H因子61。研究成果被Nature、Science、PNAS等权威期刊亮点评论,并被中国科学院、美国能源部、美国NSF、科学网、日本产经新闻、IEEE等专题报道。入选中原基础研究领军人才(2022年)、河南省特聘教授(2017年)、河南省高层次人才(2019年),获河南省自然科学奖一等奖(2019年,排名第二)、河南省事业单位定期奖励个人记功、河南省政府特殊津贴,团队入选全国专业技术人才先进集体。
报告内容简介
Mechanoluminescence (ML)-based sensing technology opens new opportunities for photonic/electronic skin due to their self-powered nature, visible spatial mapping of mechanical stimuli, and intrinsic responses to dynamic forces. However, challenges such as weak brightness and high activation threshold have hindered their development. Inspired by hair-like structures of human skin, we fabricated skin-bionic mechanoluminescent microcilia array film via a magnetic field-assisted template method. An ultralow activation threshold at the micronewton level (~10 mN) has been achieved by merit of the stress concentration induced by high aspect ratio. With excellent sensitivity to dynamic mechanical stimuli, the microcilia array enables texture recognition and Braille-to-speech translation with high recognition accuracy. Artificial all-optical synapse that employs dual-responsive mechanoluminescent materials has also been demonstrated. Upon ultraviolet (UV) excitation, the device can generate optical signals with characteristics typical of biological synapses, demonstrating short-term potentiation, long-term potentiation, paired-pulse facilitation, and learning-experience behavior. Furthermore, by incorporating heat as a third modulatory terminal while using UV light stimulations to adjust the synapse, heterosynaptic plasticity can be successfully implemented.
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香蕉视频
2026年6月24日
撰稿:张晓颖、王春枫 审核:王东、王雷
