应我校化工与化学学院齐殿鹏老师邀请,南方科技大学材料科学与工程系长聘教授将于2023年2月17日上午10:00开设线上讲座,具体信息如下:
报告人:郭传飞
联系人:齐殿鹏
报告题目:超灵敏电子皮肤的多性能协同设计及应用
报告时间:2023年2月17日,上午10:00
腾讯会议 ID:347 662 221
本次报告郭传飞教授将分享关于超灵敏电子皮肤的多性能协同设计及应用的独到见解,欢迎全校师生踊跃参加
主讲人简介:
郭传飞,湖南永兴人,南方科技大学材料科学与工程系长聘教授,国家杰出青年科学基金获得者;担任Materials Today Physics、Soft Science等期刊编辑。主要研究领域为高性能电子皮肤、人体柔性电子技术等。已在Nature Materials、Nature Communications、PNAS、Science Advances、Advanced Materials等学术期刊上发表论文140多篇。申请发明专利40余件,已获中、美、日等国专利授权24件,其中包括美国专利授权4件。参与编制国家标准一项,行业标准一项。参与编写英文专著两部。获深圳市青年科技奖和北京市自然科学二等奖。研究工作被《纽约时报》《Materials Today》《Physics Today》新闻与科技媒体广泛报道。
Guo Chuanfei, born in Yongxing, Hunan Province, is a professor of Department of Materials Science and Engineering of Southern University of Science and Technology, and obtained the National Science Fund for Distinguished Young Scholars; He is the editor of Materials Today Physics, Soft Science, and other journals. The main research fields are high-performance electronic skin, human body flexible electronic technology, etc. More than 140 papers have been published in academic journals such as Nature Materials, Nature Communications, PNAS, Science Advances, Advanced Materials, etc. More than 40 invention patents have been applied, and 24 patents have been granted in China, the United States, Japan, and other countries, including 4 patents granted in the United States. Participate in the preparation of one national standard and one industrial standard. He has participated in the preparation of one national standard, one industry standard, and two English monographs. Simultaneously, he obtained the Shenzhen Youth Science and Technology Award and the Second prize of Beijing Natural Science Award. The research work was widely reported by the New York Times, Materials Today and Physics Today news and technology media.
报告摘要:
电子皮肤可将外界信号转化为电信号,是机器人触觉和健康医疗领域的核心器件。电子皮肤中,软材料的本征属性和界面特性使得器件的灵敏度、量程以及稳定性之间难以兼顾。本研究通过材料、微结构,以及器件结构的创新设计,实现了超灵敏、大量程、高线性、高稳定性电子皮肤的研发,为电子皮肤的多种性能的协同提供了新思路。同时,揭示了界面粘附和柔性微结构的增韧机制,开发了在高剪切、高压力等复杂条件下具有稳定服役性能的电子皮肤,提出了器件的同质一体化设计策略,可一石多鸟地平衡传感性能和力学稳定性,且有效消除传感器阵列中不同阵点之间的串扰。最后,本报告将展示电子皮肤在机器人触觉和健康医疗方面的特色应用。