Micro-Supercapacitor with Unmatched Energy Density

Research out of the Institut National de la Recherche Scientifique (INRS) has yielded a novel micro-supercapacitor that has reportedly reached an energy density 1,000 times greater than current electrochemical capacitors.

This unmatched energy storage performance was made possible through a new electrode, producing density levels comparable to that of current lithium-ion micro-batteries.

Applications of this new technology could range from small electronics to autonomous sensor networks, opening the door to better water quality and air pollution monitoring.

“The extent of the electrode’s surface and the presence of pores of various sizes are key to a large storage capacity. We designed this new 3D electrode using an electrochemical process to synthesize a very porous gold structure. Ruthenium oxide, a pseudocapacitative material featuring high electrical conductivity and very good cyclability, was then inserted into the structure, resulting in unsurpassed energy density. For this type of application, component sizes are reduced to a few square millimeters, making it possible to use such expensive materials,” said Daniel Guay, ECS member and co-author of the study.

Devices such as this are crucial for energy autonomy and the move away from fossil fuels. This micro-supercapacitor is reported to have a virtually unlimited life, greater stability than the comparable micro-batteries, higher power density, and can work at varying temperatures.

PS: Make sure to check out more of Guay’s research. Start with this paper published in the Journal of The Electrochemical Society, “Oxygen Reduction Kinetics on PtxNi100 − x Thin Films Prepared by Pulsed Laser Deposition.”

DISCLAIMER

All content provided in the ECS blog is for informational purposes only. The opinions and interests expressed here do not necessarily represent ECS's positions or views. ECS makes no representation or warranties about this blog or the accuracy or reliability of the blog. In addition, a link to an outside blog or website does not mean that ECS endorses that blog or website or has responsibility for its content or use.

Post Comments

Your email address will not be published. Required fields are marked *