报告题目:E-Tattoos and E-Skins Bridging Humans and Robots(连接人类和机器人的电子纹身和电子皮肤)
报告人:美国德州大学奥斯汀分校鲁南姝教授
报告时间:2023年4月27日(星期四)上午10:00-12:00
报告地点:29号楼3楼会议室/腾讯会议(会议号:176-979-827)
欢迎广大师生踊跃参加。
机械与汽车工程学院
2023年4月24日
报告人简介:
Prof. Nanshu Lu is the Frank and Kay Reese Professor at the University of Texas at Austin. She received her B.Eng. with honors from Tsinghua University, Beijing, her Ph.D. from Harvard University, and then Beckman Postdoctoral Fellowship at UIUC. Her research concerns the mechanics, materials, manufacture, and human or robot integration of soft electronics. She is a Clarivate (Web of Science) highly cited researcher and a Fellow of the American Society of Mechanical Engineers (ASME). She is on the Board of Directors of the Society of Engineering Science (SES). She is currently an Associate Editor of Nano Letters and Journal of Applied Mechanics. She has been named 35 innovators under 35 by MIT Technology Review (TR 35) and iCANX/ACS Nano Inaugural Rising Star. She has received US NSF CAREER Award, US ONR and AFOSR Young Investigator Awards, 3M non-tenured faculty award, and the ASME Thomas J.R. Hughes Young Investigator Award. She was selected as one of the five great innovators on campus and five world-changing women at the University of Texas at Austin.
鲁南姝教授在德州大学奥斯汀分校任职。她曾以优异的成绩获得清华大学工程学士学位,并于哈佛大学获得博士学位,在UIUC修读博士后。她的研究领域涉及柔性电子的机械性能、材料、制造以及人与机器人融合。她获评科睿唯安(Web of Science)高被引研究员,并担任美国机械工程师协会(ASME)和工程科学学会(SES)的董事会成员。鲁南姝教授现任《Nano Letters》和《Journal of Applied Mechanics》的副主编。她被MIT Technology Review (TR 35)和iCANX / ACS Nano评为35位35岁以下的创新者之一。鲁南姝教授曾获得US NSF CAREER 、US ONR 、AFOSR Young Investigator、 3M non-tenured faculty、ASME Thomas J.R. Hughes Young Investigator等奖项。近年来,她被评选为德克萨斯大学奥斯汀分校校园五大创新者和五位改变世界的女性之一。
报告简要:
Many of us share a vision for the future that humans will be more like robots (i.e., digital, computational, cyber, expandable, etc.) whereas robots will be more like humans (i.e., soft, dexterous, intelligent, energy efficient, etc.). This talk will introduce research on the mechanics, design, and manufacture of stretchable electronics. In particular, epidermal electronics, a.k.a. e-tattoos, represent a class of stretchable circuits, sensors, and stimulators that are ultrathin, ultrasoft, noninvasive but skin-conformable.With e-tattoos digitizing the human body and e-skins mimicking human skin, we aim to bridge the gap between humans and robots for a symbiotic future.
许多人对未来都有一个共同的愿景,即人类将更像机器人(例如:数字化、计算能力、网络、可扩展性等),而机器人将更像人类(即柔软、灵巧、智能、节能等)。本次报告将介绍可拉伸电子产品的机械性能、结构设计和工艺制造方面的研究。其中,皮肤电子学,又名电子纹身,代表了一类可拉伸的电路、传感器和刺激器,它们是超薄、超软、无创但紧密贴合皮肤的。随着电子纹身将人体数字化,并模仿人体皮肤,对于实现跨越人与机器人之间的鸿沟,创造一个共生的未来具有重要意义。
