Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100119
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Materials characterisation facility for a sustainable future. Sustainable development will require access to large-scale carbon-neutral energy production. The tools provided through this project will enable the development of new knowledge and novel materials and processes technologies that will deliver this carbon-neutral energy.
Discovery Early Career Researcher Award - Grant ID: DE210101883
Funder
Australian Research Council
Funding Amount
$403,948.00
Summary
Carbon-based catalysts for value-added chemicals from CO2 and sunlight . This project aims to address the problem of excessive carbon dioxide in the atmosphere by utilizing newly designed - carbon architecture derived catalysts and constructing important integrated devices. The insights thus gained will generate new knowledge both in the chemical sciences of understanding the mechanism of carbon dioxide reduction on advanced carbon-based catalysts, and the engineering of effectively integrated d ....Carbon-based catalysts for value-added chemicals from CO2 and sunlight . This project aims to address the problem of excessive carbon dioxide in the atmosphere by utilizing newly designed - carbon architecture derived catalysts and constructing important integrated devices. The insights thus gained will generate new knowledge both in the chemical sciences of understanding the mechanism of carbon dioxide reduction on advanced carbon-based catalysts, and the engineering of effectively integrated devices. The expected outcome of this project is a low-cost approach to the sustainable generation of clean and renewable value-added chemicals from carbon dioxide driven by sunlight, which provides significant benefits for human society in terms of clean energy and environmental protection.Read moreRead less
Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer elec ....Design of Functionalized Mesoporous Fullerenes for Clean Energy. This project aims to design multifunctional, noble metal-free, and highly ordered mesoporous fullerene with a high conductivity and different porous structures, functionalised with nitrogen and/or metal and metal oxide nanoparticles in both powder and film forms. The most promising, stable, and highly efficient noble metal-free electrode catalyst system will be designed with the functionalised mesoporous fullerenes for polymer electrolyte membrane and direct methanol fuel cells. This novel highly efficient and low cost electrode system for fuel cells aims to help address clean energy generation and environmental problems and create new opportunities for Australian industries.Read moreRead less
Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings. This project aims to develop innovative strategies for the synthesis and thin film coating of vanadium dioxide nanoparticles, and understand the fundamentals through a comprehensive experimental and theoretical program. The findings aim to then be directly used in developing smart windows that have many applications in various industries. The project aims to significantly expand the knowledge creativity an ....Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings. This project aims to develop innovative strategies for the synthesis and thin film coating of vanadium dioxide nanoparticles, and understand the fundamentals through a comprehensive experimental and theoretical program. The findings aim to then be directly used in developing smart windows that have many applications in various industries. The project aims to significantly expand the knowledge creativity and research capability of Australia, and add value to its rich resource of vanadium oxides in advanced material manufacturing.Read moreRead less