Braeuniger Y, Lochmann S, Gellrich C, Galle L, Grothe J, Kaskel S (2022)
Publication Type: Journal article
Publication year: 2022
Monolithic integration of iontronic devices is a key challenge for future miniaturization and system integration. The G-Cap, a novel iontronic element, is a switchable supercapacitor with gating characteristics comparable to transistors in electronic circuits, but switching relies on ionic currents and ion electroadsorption. The first monolithic in-plane G-Cap integration through 3D-inkjet printing of nanoporous carbon precursors is reported. The printed G-Cap has a three-electrode architecture integrating a symmetric “working” supercapacitor (W-Cap) and a third “gate” electrode (G-electrode) that reversibly depletes/injects electrolyte ions into the system, effectively controlling the “working” capacitance. The symmetric W-Cap operates with a proton-conducting hydrogel electrolyte PVA/H
APA:
Braeuniger, Y., Lochmann, S., Gellrich, C., Galle, L., Grothe, J., & Kaskel, S. (2022). Monolithic In-Plane Integration of Gate-Modulated Switchable Supercapacitors. Energy Technology. https://doi.org/10.1002/ente.202101153
MLA:
Braeuniger, Yannik, et al. "Monolithic In-Plane Integration of Gate-Modulated Switchable Supercapacitors." Energy Technology (2022).
BibTeX: Download