There is increasing global interest in using solid oxide electrochemical cells to perform electrolysis. Metal-supported solid oxide electrolysis cells (MS-SOEC) are being developed with stainless steel and Ni-based supports. The use of porous metal to support the electrochemically-active layers is anticipated to improve mechanical strength, decrease cost, and increase tolerance to aggressive operating conditions, including rapid thermal excursions. This review summarizes and analyzes the previous decade of progress in MS-SOEC development, and identifies critical needs for future work.
BT - International Journal of Hydrogen Energy DA - 09/2020 DO - 10.1016/j.ijhydene.2020.06.300 IS - 46 LA - eng N2 -There is increasing global interest in using solid oxide electrochemical cells to perform electrolysis. Metal-supported solid oxide electrolysis cells (MS-SOEC) are being developed with stainless steel and Ni-based supports. The use of porous metal to support the electrochemically-active layers is anticipated to improve mechanical strength, decrease cost, and increase tolerance to aggressive operating conditions, including rapid thermal excursions. This review summarizes and analyzes the previous decade of progress in MS-SOEC development, and identifies critical needs for future work.
PY - 2020 SP - 24203 EP - 24218 ST - International Journal of Hydrogen Energy T2 - International Journal of Hydrogen Energy TI - Progress in metal-supported solid oxide electrolysis cells: A review VL - 45 SN - 03603199 ER -