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Development of Refractory Ceramics for The Oxygen Evolution Reaction (OER) Electrocatalyst Support for Water Electrolysis at elevated temperatures

机译：用于高温水电解的氧气演变反应（OER）电催化剂的耐火陶瓷的开发

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Commercial TaC and Si3N4 powders were tested as possible electrocatalyst support materials for the Oxygen Evolution Reaction (OER) for PEM water electrolysers, operating at elevated temperatures. TaC and Si3N4 were characterised by thermogravimmetric and differential thermal analysis for their thermal stability. The Adams fusion method was implemented to deposit IrO2 on the support surfaces. A series of electrocatalysts was prepared with a composition of (IrO2)x(TaC/ Si3N4)1-x,where x represents the mass fraction of IrO2 and was equal to 0.1 (only for TaC), 0.3, 0.5, 0.7, 0.9 and 1. The thin-film method was used for electrochemical analysis of the prepared electrocatalysts. SEMEDX, BET and powder conductivity measurements were used as complementary techniques to complete characterisation of the electrocatalysts. Additionally, they were compared in their properties with previously reported data for a SiC-Si support. The stability of the electrocatalysts was assessed by estimation of reversibility of the anodic/cathodic processes. © The Electrochemical Society

机译：测试了商用TaC和Si3N4粉末作为在高温下运行的PEM水电解槽的析氧反应（OER）的可能的电催化剂载体材料。通过热重分析和差热分析对TaC和Si3N4的热稳定性进行了表征。实施亚当斯（Adams）熔融方法将IrO2沉积在支撑表面上。制备了一系列具有（IrO2）x（TaC / Si3N4）1-x组成的电催化剂，其中x代表IrO2的质量分数，等于0.1（仅适用于TaC），0.3、0.5、0.7、0.9和1.薄膜法用于制备的电催化剂的电化学分析。使用SEMEDX，BET和粉末电导率测量作为补充技术来完成电催化剂的表征。此外，将它们的性质与以前报道的SiC-Si载体数据进行了比较。通过估计阳极/阴极过程的可逆性来评估电催化剂的稳定性。 ©电化学学会

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Nikiforov Aleksey; Prag Carsten Brorson; Polonsky J.; Petrushina Irina; Christensen Erik; Bjerrum Niels;
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年度 2012
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3. Tuning the electronic structure of the earth-abundant electrocatalysts for oxygen evolution reaction(OER)to achieve efficient alkaline water splitting-A review [J] . Mohammed-Ibrahim Jamesh, Moussab Harb 能源化学：英文版 . 2021 ,第005期

机译：调整地球丰富电催化剂的电子结构，用于氧气进化反应（OER）以实现有效的碱性水分解 - 评论
4. Development of Refractory Ceramics for The Oxygen Evolution Reaction (OER) Electrocatalyst Support for Water Electrolysis at elevated temperatures [C] . A. V. Nikiforov, C. B. Prag, J. Polonsky, ECS Meeting . 2012

机译：开发氧化反应（OER）电催化剂升高温度下水电解的耐火陶瓷
5. Investigation of the Use of CoxSn1-x-Oxide as Anodes for the Oxygen Evolution Reaction in Water Electrolysis for Hydrogen Production [D] . Gharbi, Rihab. 2019

机译：CoxSn1-X氧化物用作氢气水解中氧化反应的阳极用途的研究
6. Nickel nanoparticles supported on a covalent triazine framework as electrocatalyst for oxygen evolution reaction and oxygen reduction reactions [O] . Secil Öztürk, Yu-Xuan Xiao, Dennis Dietrich, 2020

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7. Development of refractory ceramics for the oxygen evolution reaction (OER) catalyst support for water steam electrolysis [O] . Polonsky J., Prag Carsten Brorson, Nikiforov Aleksey, 2011

机译：开发用于水蒸汽电解的析氧反应（OER）催化剂载体的耐火陶瓷

Development of Refractory Ceramics for The Oxygen Evolution Reaction (OER) Electrocatalyst Support for Water Electrolysis at elevated temperatures

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