报告摘要:
Advanced optoelectronic systems that can intimately integrate with the brain and the peripheral nervous system have the potential to accelerate progress in neuroscience research and to serve as the foundations for new approaches in patient care. Specifically, capabilities for injecting miniaturized electronics,light sources, photodetectors, multiplexed sensors, programmable microfluidic networks and other components into precise locations of the deep brain and for softly laminating them onto targeted regions of the surfaces of the neural tissues will open up unique and important opportunities in stimulation, inhibition and real-time monitoring of neural circuits. This talk will describe essential concepts in materials science, device physics and assembly processes for these types of technologies, in 1D, 2D and 3D architectures and in bioresorbable formats. Examples of system level demonstrations include “cellular-scale”, injectable optofluidic probes for neuroscience research, 3D mesoscale networks for study of cortical spheroids and wireless, bioresorbable nerve stimulators for accelerated neuroregeneration.
报告人:Professor John A. Rogers
报告人简介:
John A. Rogers 教授是国际著名材料学家、物理学家及化学家,是美国四院院士:美国国家工程院院士、美国国家科学院院士、美国医学科学院院士和美国艺术与科学学院院士,同时是复旦大学名誉教授。Rogers教授于2016年9月加入美国西北大学,现为材料科学与工程、生物医学工程和医学Louis Simpson 和Kimberly Querrey 教授,机械工程、电气与计算机工程和化学的兼职教授,以及Querrey-Simpson生物电子研究所主任。目前Rogers教授团队发表了近900篇论文,授权了100多项专利。他先后荣获多项国际奖项,包括MacArthur Fellowship (2009年)、Lemelson- MIT Prize (2011年)、Smithsonian Award for American Ingenuity in the Physical Sciences (2013年)、MRS Medal from the Materials ResearchSociety (2018年)、Benjamin Franklin Medal from the Franklin Institute (2019年)、Guggenheim Fellowship (2021年) and the IEEE Biomedical Engineering Award (2023年)。
报告时间:2024年12月16日 上午9:00-11:30
报告地点:复旦大学江湾校区交叉一号楼B100605
报告主持人:宋恩名 青年研究员