1. Strain Releasing of Flexible 2D Electronics through van der Waals Sliding Contact
- Author
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Zhiwei Li, Yang Chen, Songlong Liu, Wanying Li, Liting Liu, Wenjing Song, Donglin Lu, Likuan Ma, Xiangdong Yang, Zhengdao Xie, Xidong Duan, Zeyu Yang, Yiliu Wang, Lei Liao, and Yuan Liu
- Subjects
General Engineering ,General Physics and Astronomy ,General Materials Science - Abstract
Two-dimensional (2D) materials have demonstrated promising potential for flexible electronics, owning to their atomic thin body thickness and dangling-bond-free surface. Here, we report a sliding contact device structure for efficient strain releasing. By fabricating a weakly coupled metal-2D junction with a van der Waals (vdW) gap in between, the applied strain could be effectively released through their interface sliding; hence minimized strain is transferred to the 2D lattice. Therefore, we observed stable device behavior with electrodes stretching over 110%, much higher than 2D devices using evaporated metal contacts. Furthermore, through multicycle straining-releasing measurements, we found the electrodes still form intimate contact with nearly constant contact resistance during sliding, confirming the optimization of device flexibility and electrical properties at the same time. Finally, we demonstrate this vdW sliding contact is a general device geometry and could be well-extended to various 2D or 3D bulk materials, leading to devices with much higher strain tolerance.
- Published
- 2022