Abstract Scope |
Nanomembranes are thin, flexible, transferable and can be shaped into unique 3D micro- and nanoarchitectures. This makes them attractive for various scientific disciplines ranging from «Electronic Soft-Wear» to «Microrobotic Hard-Ware». This talk explores the underlying science of nanomembranes and discusses the fascinating application potential of this particular class of nanomaterials ranging from flexible microchips for electronic skin [1] and self-assembled 3D microelectronics [2] to medical and microelectronic microbots [3,4]. Particular attention will be paid to the challenge of on-board energy supply for autonomously acting smart dust microsystems [5].
1. M. Kondo et al., Sci. Adv. 6, eaay6094 (2020)
2. D. Karnaushenko et al., Adv. Mater. 32, 1902994 (2020)
3. M. Medina-Sánchez, O. G. Schmidt, Nature 545, 406 (2017)
4. V. K. Bandari et al., Nature Electron. 3, 172 (2020)
5. M. Zhu, O. G. Schmidt, Nature 589, 195 (2021) |