| 1 |
Recent advances in solid oxide cell technology for electrolysis
Hauch A, Kungas R, Blennow P, Hansen AB, Hansen JB, Mathiesen BV, Mogensen MB
Science, 370(6513), 186, 2020 |
| 2 |
3D Microstructural Characterization of Ni/YSZ Electrodes Exposed to 1 Year of Electrolysis Testing
Trini M, Jorgensen PS, Hauch A, Bentzen JJ, Hendriksen PV, Chen M
Journal of the Electrochemical Society, 166(2), F158, 2019 |
| 3 |
Comparison between La0.6Sr0.4CoO3-d and LaNi0.6Co0.4O3-d infiltrated oxygen electrodes for long-term durable solid oxide fuel cells
Ovtar S, Hauch A, Veltze S, Chen M
Electrochimica Acta, 266, 293, 2018 |
| 4 |
Re-activation of degraded nickel cermet anodes - Nano-particle formation via reverse current pulses
Hauch A, Marchese M, Lanzini A, Graves C
Journal of Power Sources, 377, 110, 2018 |
| 5 |
Classical statistical methodology for accelerated testing of Solid Oxide Fuel Cells
Ploner A, Hagen A, Hauch A
Journal of Power Sources, 395, 379, 2018 |
| 6 |
High performance LaNi1-xCoxO3-delta (x=0.4 to 0.7) infiltrated oxygen electrodes for reversible solid oxide cells
Chrzan A, Ovtar S, Jasinski P, Chen M, Hauch A
Journal of Power Sources, 353, 67, 2017 |
| 7 |
Ni/YSZ electrodes structures optimized for increased electrolysis performance and durability
Hauch A, Brodersen K, Chen M, Mogensen MB
Solid State Ionics, 293, 27, 2016 |
| 8 |
Triple phase boundary specific pathway analysis for quantitative characterization of solid oxide cell electrode microstructure
Jorgensen PS, Ebbehoj SL, Hauch A
Journal of Power Sources, 279, 686, 2015 |
| 9 |
High Temperature Electrolysis in Alkaline Cells, Solid Proton Conducting Cells, and Solid Oxide Cells
Ebbesen SD, Jensen SH, Hauch A, Mogensen MB
Chemical Reviews, 114(21), 10697, 2014 |
| 10 |
Electrochemical characterization of La0.6Ca0.4Fe0.8Ni0.2O3 cathode on Ce0.8Gd0.2O1.9 electrolyte for IT-SOFC
Ortiz-Vitoriano N, Bernuy-Lopez C, Hauch A, de Larramendi IR, Rojo T
International Journal of Hydrogen Energy, 39(12), 6675, 2014 |
