Straining and shaping nanomembranes: From concepts to applications
Abstract: Nanomembranes are thin, flexible, transferable and can be assembled into 3D micro- and nanoarchitectures. This makes them attractive for a broad range of applications and scientific research fields ranging from novel strain-tunable heterostructure devices to ultra-compact 3D systems both on and off the chip. 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. Highlights of this talk will include imperceptible magnetoelectronic devices and wavelength-tunable single photon sources as well as ultra-compact lab-in-a-tube and self-propelled autonomous systems. Registration Website : https://goo.gl/IC3tTQ Please register for lunch box before 2015/5/20 (Wed.) Contact e-mail: ttkhine@nctu.edu.tw