Electro-Mechanically Responsive Ionoelastomer Heterojunctions
2023.03.13- Date
- 2023-05-25 16:00:00
- Department
- Materials Science and Engineering
- Venue
- 104-E206
- Speaker
- Prof. Hyeong Jun Kim (Sogang University)
Electro-Mechanically Responsive Ionoelastomer Heterojunctions
Hyeong Jun Kim
Department of Chemical and Biomolecular Engineering, Sogang University, Seoul, South Korea
Soft solids capable of conducting ions offer promise for the design of entirely new classes of highly deformable and bio-inspired devices. While resistive and capacitive ionic circuit elements are well established, next generation ionotronics will require advanced elements that can control and switch ion flow. Here, we introduce ‘ionoelastomers’—soft polymer networks capable of selectively conducting either anions or cations—to demonstrate liquid-free, elastic, and stretchable ionic diodes and transistors that operate entirely via non-Faradaic processes. We show that the junction of two oppositely charged ionoelastomers yields an ‘ionic double layer’, analogous to the depletion layer in a semiconducting p-n junction. This enables the design of ionic devices for rectifying and switching non-Faradaic ionic currents. Furthermore, soft and stretchable ionoelastomer junctions provide fundamentally new functionalities including: 1) low voltage reversible electro-adhesion and 2) electro-mechanical transduction, i.e., the conversion of mechanical deformation into electrical signals. Our studies provide new fundamental insight on the interface between two oppositely charged ionoelastomers and open opportunities for the application of these soft ion-conducting devices.