Holger Bausinger
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View article: Evaluation and Upscaling of Impregnated La<sub>0.20</sub>Sr<sub>0.25</sub>Ca<sub>0.45</sub>TiO<sub>3</sub> Fuel Electrodes for Solid Oxide Electrolysis Cells
Evaluation and Upscaling of Impregnated La<sub>0.20</sub>Sr<sub>0.25</sub>Ca<sub>0.45</sub>TiO<sub>3</sub> Fuel Electrodes for Solid Oxide Electrolysis Cells Open
Recent research into Rh and Ce 0.80 Gd 0.20 O 1.90 -impregnated La 0.20 Sr 0.25 Ca 0.45 TiO 3 fuel electrodes for solid oxide fuel cells has demonstrated the high-stability of these material sets to a variety of harsh operating conditions …
View article: Development and full system testing of novel co‐impregnated La<sub>0.20</sub>Sr<sub>0.25</sub>Ca<sub>0.45</sub>TiO<sub>3</sub> anodes for commercial combined heat and power units
Development and full system testing of novel co‐impregnated La<sub>0.20</sub>Sr<sub>0.25</sub>Ca<sub>0.45</sub>TiO<sub>3</sub> anodes for commercial combined heat and power units Open
Over the past decade, the University of St Andrews and HEXIS AG have engaged in a highly successful collaborative project aiming to develop and upscale La 0.20 Sr 0.25 Ca 0.45 TiO 3 (LSCT A‐ ) anode “backbone” microstructures, impregnated …
View article: Performance and sulfur tolerance of a short stack with solid oxide cells using infiltrated strontium titanate based anodes
Performance and sulfur tolerance of a short stack with solid oxide cells using infiltrated strontium titanate based anodes Open
Solid oxide fuel cell (SOFC) technology offers reliable and efficient power generation from electrochemical oxidation of fuel gasses. State-of-the-art (SoA) anodes based on Ni cermets are prone to poisoning by fuel impurities, including su…
View article: Performance and Sulfur Tolerance of a Short Stack with Solid Oxide Cells Using Infiltrated Strontium Titanate Based Anodes
Performance and Sulfur Tolerance of a Short Stack with Solid Oxide Cells Using Infiltrated Strontium Titanate Based Anodes Open
View article: Standardized microstructure characterization of SOC electrodes as a key element for Digital Materials Design
Standardized microstructure characterization of SOC electrodes as a key element for Digital Materials Design Open
A standardized microstructure characterization tool for solid oxide cell (SOC) electrodes is presented, allowing for the automatic determination of a large number of microstructure characteristics relevant for the cell performance.
View article: Modeling the impedance response and steady state behaviour of porous CGO-based MIEC anodes
Modeling the impedance response and steady state behaviour of porous CGO-based MIEC anodes Open
The SOFC MIEC anode model enables an appropriate understanding of the complex physico-chemical processes and microstructure effects and thus provides a basis for a systematic materials optimization.