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Low-temperature ceramic electrolysis cells for renewable energy technology. This project aims to develop advanced protonic ceramic electrolysis cells for greatly improving the efficiency of hydrogen production and carbon dioxide conversion using renewable energy. This will be achieved by nanoscale integration of proton-conducting two-dimensional materials with solid acids and ceramic proton conductors to lower the manufacturing costs and operating temperature of protonic ceramic electrolysis cel ....Low-temperature ceramic electrolysis cells for renewable energy technology. This project aims to develop advanced protonic ceramic electrolysis cells for greatly improving the efficiency of hydrogen production and carbon dioxide conversion using renewable energy. This will be achieved by nanoscale integration of proton-conducting two-dimensional materials with solid acids and ceramic proton conductors to lower the manufacturing costs and operating temperature of protonic ceramic electrolysis cells. Expected outcomes of the project include new intellectual property on materials formulation and process parameters for commercial development of this new type of ceramic electrolysis cell, thereby contributing to the growth of Australian manufacturing and renewable energy industries and reduction of carbon emissions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240101013
Funder
Australian Research Council
Funding Amount
$435,237.00
Summary
New water-inserted perovskites for high-current-density water electrolysis. This project aims to develop a new type of water-inserted perovskite oxide materials to realise high-current-density hydrogen production in anion-exchange-membrane water elecrolysers using renewable electricity. Innovations are expected in the rational design and engineering of novel materials, elucidation of new catalytic mechanisms from experimental and computational studies, and breakthroughs in commercially-relevant ....New water-inserted perovskites for high-current-density water electrolysis. This project aims to develop a new type of water-inserted perovskite oxide materials to realise high-current-density hydrogen production in anion-exchange-membrane water elecrolysers using renewable electricity. Innovations are expected in the rational design and engineering of novel materials, elucidation of new catalytic mechanisms from experimental and computational studies, and breakthroughs in commercially-relevant water electrolysis processes. Expected outcomes include innovative materials engineering methods, in-depth reaction mechanism understandings, and demonstration of robust electrolysers. This project will provide significant benefit to Australia’s hydrogen industry and economic growth and energy sustainability in the long run.Read moreRead less