Lowering the operating temperature of protonic ceramic electrochemical cells to <450 °C

Fan Liu(Wuhan Textile University), Chuancheng Duan(Kansas State University), David R. Diercks(Colorado School of Mines), Yoshihisa Furuya(Nissan (United States)), Pejman Kazempoor(University of Oklahoma), Masahiro Usuda(Nissan (Japan)), Praveen Kumar(Colorado School of Mines), Cenk Gümeci(Nissan (United States)), Liyang Fang(Kansas State University), Hao Deng(Kansas State University), Mohammed Hussain Abdul Jabbar(Nissan (United States)), Bin Liu(Kansas State University), Di Chen(Kansas State University), Nilesh Dale(Nissan (United States)), Takanori Oku(Nissan (Japan))

Nature Energy

September 7, 2023

10.1038/s41560-023-01350-4

Cited by 234

Related Papers

Rational Design of Better Hydrogen Evolution Electrocatalysts for Water Splitting: A Review

|Advanced Science|2022|429

WSe<sub>2</sub> 2D p‐type semiconductor‐based electronic devices for information technology: Design, preparation, and applications

|InfoMat|2020|249

Electrodeposition of metals and alloys from ionic liquids

|Journal of Alloys and Compounds|2015|209

Metallic Ni3Mo3N Porous Microrods with Abundant Catalytic Sites as Efficient Electrocatalyst for Large Current Density and Superstability of Hydrogen Evolution Reaction and Water Splitting

|Applied Catalysis B: Environmental|2020|203

Research progress and prospect of plugging technologies for fractured formation with severe lost circulation

|Petroleum Exploration and Development|2021|170