报告题目：Inorganic and hybrid nanomembranes: From flexible magnetoelectronics to micro-biorobotics 
　　报 告 人：Prof. Dr. Oliver G. Schmidt from Institute for Integrative Nanosciences IFW Dresden, Germany 
　　时 间：2014年11月3日（周一）上午9点 
　　地 点：中国科学院沈阳自动化研究所 R楼408会议室 
　　报告内容： 
　　Nanomembranes are thin, flexible, transferable and can be shaped into 3D micro- and nanoarchitectures.This makes them attractive for a broad range of applications and scientific research fields ranging from flexible magnetoelectronic devices to ultra-compact autonomous micro- and micro-biorobotic systems.If nanomembranes are differentially strained they deform themselves and roll-up into tubular structures upon release from their mother substrate. Rolled-up nanomembranes can be exploited to rigorously compact electronic circuitry, energy storage units and novel optical systems.If appropriate materials are chosen, rolled-up tubes act as tiny catalytic jet engines which in the ultimate limit may drive compact multifunctional autonomous systems for medical and environmental applications. If magnetic tubes are combined with flagella-driven sperm cells, such hybrid micro-biorobots offer new perspectives towards artificial reproduction technologies.