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Discovery Early Career Researcher Award - Grant ID: DE230100637
Funder
Australian Research Council
Funding Amount
$428,154.00
Summary
An integrated electrolyser for CO2 conversion from capture media. This project aims to develop an efficient electrochemical method to convert carbon dioxide (CO2) to valuable chemicals. It expects to displace the energy-costly step of its upstream CO2 capture process. The key novelty is the use of flow-through electrodes and optimal solvents to promote CO2 conversion at high rates. Expected outcomes include enhanced efficiency of CO2 sequestration, and new techniques to develop electrodes with w ....An integrated electrolyser for CO2 conversion from capture media. This project aims to develop an efficient electrochemical method to convert carbon dioxide (CO2) to valuable chemicals. It expects to displace the energy-costly step of its upstream CO2 capture process. The key novelty is the use of flow-through electrodes and optimal solvents to promote CO2 conversion at high rates. Expected outcomes include enhanced efficiency of CO2 sequestration, and new techniques to develop electrodes with well-controlled local reaction environments, which are essential for electrochemical energy conversion and storage. This will benefit Australia's environment and industries such as cement and aluminium manufacturing in managing carbon emissions, and accelerate Australia’s transition to a carbon-neutral economy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100084
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
Australia’s fuel cells and electrolysers prototyping and testing facility. This project aims to address a major gap in Australian infrastructure for researching and developing technologies for Power to X, including hydrogen production and use. The aspiration is to establish an integrated fuel cell and electrolyser prototyping and testing facility to support Australia’s excellent fundamental research in advanced energy materials, electrocatalysis, and engineering design. The aim is to equip the r ....Australia’s fuel cells and electrolysers prototyping and testing facility. This project aims to address a major gap in Australian infrastructure for researching and developing technologies for Power to X, including hydrogen production and use. The aspiration is to establish an integrated fuel cell and electrolyser prototyping and testing facility to support Australia’s excellent fundamental research in advanced energy materials, electrocatalysis, and engineering design. The aim is to equip the research community with the capability to fabricate electrolyser and fuel cell prototypes at relevant scales to accelerate translational research in these areas. Doing so will also enable the technical and expertise platform needed to support industry's transition toward Australia’s 2050 net zero objective.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100407
Funder
Australian Research Council
Funding Amount
$462,414.00
Summary
Novel Hydroxide Ion Conductive Membranes for Advanced Ammonia Fuel Cell. This project aims to address a longstanding challenge in the development of direct ammonia fuel cells for utilization of ammonia as a green energy carrier. It proposes to develop advanced hydroxide ion conductive membranes based on novel porous framework materials to achieve high hydroxide ion conductivity and lower ammonia crossover simultaneously, thereby substantially enhancing the energy efficiency of direct ammonia fue ....Novel Hydroxide Ion Conductive Membranes for Advanced Ammonia Fuel Cell. This project aims to address a longstanding challenge in the development of direct ammonia fuel cells for utilization of ammonia as a green energy carrier. It proposes to develop advanced hydroxide ion conductive membranes based on novel porous framework materials to achieve high hydroxide ion conductivity and lower ammonia crossover simultaneously, thereby substantially enhancing the energy efficiency of direct ammonia fuel cells. The proposed research expects to create new knowledge in the fields of membrane science and energy. The successful development of advanced membranes will improve the efficiency of storage of intermittent and fluctuating renewable resources, thereby contributing to the reduction of carbon footprint in Australia. Read moreRead less