By Beichen Liu, Dr. Wenxiao Guo, Seth R. Anderson, Samuel G. Johnstone, Siqi Wu, Megan C. Herrington, and Dr. Matthew A. Gebbie
News
“Suppressing Co-Ion Generation via Cationic Proton Donors to Amplify Driving Forces for Electrochemical CO2 Reduction”
By Dr. Wenxiao Guo, Beichen Liu, and Dr. Matthew A. Gebbie.
Research Forward Grant
Using high-throughput computer models and experiments, the team will work to understand how electrolytes behave at small scales and how such behavior influences battery performance.
“Modulating Entropic Driving Forces to Promote High Lithium Mobility in Solid Organic Electrolytes”
By Jack McAlpine, Alex Bloemendal, Dr. Jeremy E. Dahl, Dr. Robert M. K. Carlson, Dr. Ilia A. Guzei, Dr. Catherine F. M. Clewett, Dr. Boryslav O. Tkachenko, Dr. Peter R. Schreiner, and Dr. Matthew A. …
Hrishikesh Tupkar is Awarded a National Defense Science and Engineering Graduate Fellowship
Congratulations to Hrishikesh Tupkar for being awarded the Department of Defense National Defense Science and Engineering Graduate (NDSEG) Fellowship! The highly prestigious fellowship was established in 1989 by direction of congress as an approach to …
Emmy Umaña is Awarded an NSF Graduate Research Fellowship
Congratulations to Emmy Umaña for being awarded a National Science Foundation Graduate Research Fellowship (GRFP)! The purpose of the fellowship is to help ensure the quality, vitality, and diversity of the scientific and engineering workforce …
“Alternative Energy Carriers: Unique Interfaces for Electrochemical Hydrogenic Transformations”
By Dr. Gerard M. Carroll, Dr. Matthew A. Gebbie, Dr. Shannon S. Stahl, Dr. Matthew R. Johnson, Dr. Oana R. Luca, Dr. Haley A. Peterson, Dr. Yannick J. Bomble, Dr. Nathan R. Neale, and Dr. …
National Science Foundation CAREER Award
In his CAREER Award project, Gebbie and his students will investigate how collective ion assembly at the electric double layer influences the carbon dioxide reduction reaction and the electrochemical properties of interfaces.
Army Research Office Early Career Program Award
Gebbie and his students are investigating new types of electrolytes made of nanostructured ionic liquids customized to handle different multivalent ions, each of which has very different properties than lithium.
“Bridging Database and Experimental Analysis to Reveal Super-hydrodynamic Conductivity Scaling Regimes in Ionic Liquids”
By Ryan Cashen, Megan M. Donoghue, Abigail J. Schmeiser, and Dr. Matthew A. Gebbie