Advanced Water
Splitting Technologies
DOE Hydrogen Production Program

Technology

Keywords

Title Keywords Author(s) Validation Results Technology
Advancing proton-conducting ceramic electrochemical devices: perspectives on benchmarking and barriers to progress Fuel Cell, Electrolysis, Proton-conducting ceramic, Benchmarking, Critical Materials, Sintering, Distribution of relaxation times DRT, Fabrication Charlie Meisel, You-Dong Kim, David Diercks, Ryan O’Hayre, Neal P. Sullivan High Temperature Electrolysis (HTE)
Area Specific Resistance Tyler Hafen, Joseph Hartvigsen High Temperature Electrolysis (HTE)
Cell Durability Testing Tyler Hafen, Joseph Hartvigsen High Temperature Electrolysis (HTE)
Cell preconditioning and Startup Seraphim Belko High Temperature Electrolysis (HTE)
Cell Thermal Cycling Dennis Larsen, Joseph Hartvigsen High Temperature Electrolysis (HTE)
Contact Layer Bonding Strength and Thermal Cycle Stability Solid Oxide Cell, Thermal Cycling, Bonding Strength Yeong-Shyung Chou High Temperature Electrolysis (HTE)
Cr Evaporation testing Solid Oxide Cell, Metallic Interconnect, Cr Poisoning, Cr Evaporation Lingfeng Zhou, Wenyuan Li, Xingbo Liu High Temperature Electrolysis (HTE)
Definitions, Terms and Metrics for High Temperature Electrolysis Solid Oxide Cell, Definitions Olga Marina High Temperature Electrolysis (HTE)
Determination of Ionic Transference Numbers using Four Probe Method Solid Oxide Cell, Open Circuit Voltage, Electromotive Force, Ceramic Materials, Ionic Conductivity, Electronic Conductivity Ani Kulkarni High Temperature Electrolysis (HTE)
Determination of Ionic Transference Numbers: Electromotive Force (e.m.f.) Method Solid Oxide Cell, Open Circuit Voltage, Electromotive Force, Ionic Transference Numbers, Ceramic Materials, Ionic Conductivity, Electronic Conductivity Ani Kulkarni High Temperature Electrolysis (HTE)

This material was prepared as an account of work sponsored by an agency of the United States Government.
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