Early Career Industry Fellowships - Grant ID: IE230100468
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Scalable high-performance electrolytic hydrogen generator. The project aims to demonstrate energy-efficient generation of compressed hydrogen by water electrolysis in a high pressure electrolyser test-rig produced by Melbourne company Energys Australia P/L, using high-performance membrane-electrode assemblies. Innovative electrode architectures, membranes, and method for their high through-put lamination will be developed. New knowledge in catalysis, device fabrication and materials science is e ....Scalable high-performance electrolytic hydrogen generator. The project aims to demonstrate energy-efficient generation of compressed hydrogen by water electrolysis in a high pressure electrolyser test-rig produced by Melbourne company Energys Australia P/L, using high-performance membrane-electrode assemblies. Innovative electrode architectures, membranes, and method for their high through-put lamination will be developed. New knowledge in catalysis, device fabrication and materials science is expected to be generated. The major project outcome is sustainable method for generation of compressed hydrogen at significantly reduced cost as compared to the existing technologies. Benefits include industry-ready processes for electrolyser and hydrogen production that support Australian energy industries.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100449
Funder
Australian Research Council
Funding Amount
$453,000.00
Summary
High-performance ammonia electrosynthesis devices. The project aims to develop a robust process for electrosynthesis of ammonia using devices manufactured by Melbourne company Jupiter Ionics P/L and innovative electrolyte components. Towards this aim, tailored ion-shuttling compounds need to be designed and investigated to enable continuous generation of ammonia in scaled-up flow devices. This is expected to generate new knowledge in practical electrochemistry, catalysis and sustainable synthesi ....High-performance ammonia electrosynthesis devices. The project aims to develop a robust process for electrosynthesis of ammonia using devices manufactured by Melbourne company Jupiter Ionics P/L and innovative electrolyte components. Towards this aim, tailored ion-shuttling compounds need to be designed and investigated to enable continuous generation of ammonia in scaled-up flow devices. This is expected to generate new knowledge in practical electrochemistry, catalysis and sustainable synthesis. Key project outcome is a technology for production of ammonia from renewables that is pollution-free and highly scalable in contrast to the current process. Resulting benefit to Australian agriculture businesses is a method for distributed fertiliser generation without the use of fossil fuels.Read moreRead less
ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide. ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide. This Centre aims to advance carbon dioxide electrochemistry innovations to enable the conversion of carbon dioxide into valuable products and transition Australia to a carbon-neutral economy. This Centre expects to generate new knowledge using experimental and computational approaches to develop systems-level understanding to fu ....ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide. ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide. This Centre aims to advance carbon dioxide electrochemistry innovations to enable the conversion of carbon dioxide into valuable products and transition Australia to a carbon-neutral economy. This Centre expects to generate new knowledge using experimental and computational approaches to develop systems-level understanding to furnish industry-ready carbon dioxide utilisation technologies. Expected outcomes include enhanced capacity through collaborations establishing the Centre as an international hub for research, training, technology translation and strategic advice for stakeholders and policymakers. This should accelerate Australia’s progress towards net zero emissions targets and grow a sustainable economy and create future jobs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100327
Funder
Australian Research Council
Funding Amount
$404,226.00
Summary
Porous Tandem Catalyst for CO2 Conversion into Sustainable Chemicals. This project aims to develop new strategies to design and tune the performance of multifunctional catalysts for the conversion of carbon dioxide as a sustainable feedstock for the production of valuable commodity chemicals used in the manufacture of consumer products. New insights into reaction mechanisms, and relationships between catalyst structure and performance, are expected through innovative analytical tools. Anticipate ....Porous Tandem Catalyst for CO2 Conversion into Sustainable Chemicals. This project aims to develop new strategies to design and tune the performance of multifunctional catalysts for the conversion of carbon dioxide as a sustainable feedstock for the production of valuable commodity chemicals used in the manufacture of consumer products. New insights into reaction mechanisms, and relationships between catalyst structure and performance, are expected through innovative analytical tools. Anticipated outcomes include a toolkit of catalyst design principles, underpinning the development of next-generation catalysts with superior energy efficiency, waste minimisation, and associated socioeconomic benefits, which should contribute significantly to Australian science, industry and the environment. Read moreRead less