An Innovative Solid-State Approach to Enhanced Solar-Hydrogen Production. The project will make a major step towards the development of solar-hydrogen technology, which promises to deliver a clean and renewable fuel - hydrogen - from water (seawater or other) using sunlight and a suitable photo-catalytic material. Not only will solar-hydrogen assist Australia to reduce its dependence on imported energy, but will also reduce Australia's carbon emissions and overall contribution to climate change. ....An Innovative Solid-State Approach to Enhanced Solar-Hydrogen Production. The project will make a major step towards the development of solar-hydrogen technology, which promises to deliver a clean and renewable fuel - hydrogen - from water (seawater or other) using sunlight and a suitable photo-catalytic material. Not only will solar-hydrogen assist Australia to reduce its dependence on imported energy, but will also reduce Australia's carbon emissions and overall contribution to climate change. When commercialized, solar-hydrogen technology may also enable Australia to become a global leader in the export of clean fuel, which will have very positive, far-reaching consequences for the economy.Read moreRead less
Novel Photo-Catalysts for Water Oxidation: Linking Nature to New Technologies. Photosynthesis is the catalytic process used by biology to convert the sun's light into energy. This project aims to mimic photosynthesis with cheap and robust molecules. The approach has great potential for development of renewable energy production and benign industrial chemical processes. The project will bring Australia to the international forefront of this field. It will provide excellent research training in a ....Novel Photo-Catalysts for Water Oxidation: Linking Nature to New Technologies. Photosynthesis is the catalytic process used by biology to convert the sun's light into energy. This project aims to mimic photosynthesis with cheap and robust molecules. The approach has great potential for development of renewable energy production and benign industrial chemical processes. The project will bring Australia to the international forefront of this field. It will provide excellent research training in a range of scientific skills for Australian research students. Read moreRead less
Efficient One-Dimensional Photocatalysts from Titanate Nanofibres and Nanotubes. This project will deliver important fundamental knowledge for the development of high-value products of titania, and thus will contribute directly to the priority goal of transforming the existing titania industry through value adding and export on the international market. This research will lead to new industries and will create employment opportunities for Australians. It will also serve to train young scientists ....Efficient One-Dimensional Photocatalysts from Titanate Nanofibres and Nanotubes. This project will deliver important fundamental knowledge for the development of high-value products of titania, and thus will contribute directly to the priority goal of transforming the existing titania industry through value adding and export on the international market. This research will lead to new industries and will create employment opportunities for Australians. It will also serve to train young scientists with a real appreciation of materials research and engineering, contributing to the overall competitiveness and productivity of Australian R&D. This project would lead to advances in important fields of clean energy, environment remediation and advanced materials processing in Australia.Read moreRead less
New concepts with multidisciplinary approach: novel functionalised nanostructures for hydrogen storage. This project addresses National Research Priorities in the areas of breakthrough science, frontier technologies and advanced materials. Developing new methodologies to fabricate novel functionalised nanostructured materials with tailored properties has great potential in areas including energy storage, novel catalysts, novel sensors, micro/nano-electronics, etc. This project will enhance the i ....New concepts with multidisciplinary approach: novel functionalised nanostructures for hydrogen storage. This project addresses National Research Priorities in the areas of breakthrough science, frontier technologies and advanced materials. Developing new methodologies to fabricate novel functionalised nanostructured materials with tailored properties has great potential in areas including energy storage, novel catalysts, novel sensors, micro/nano-electronics, etc. This project will enhance the international reputation and impact of Australian research in the internationally focused fields of nanotechnology and hydrogen energy technology. Applying innovative nanotechnology to the area of hydrogen energy will add to Australia's export potential and reduce Australia's reliance on foreign fuel sources.
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Reactions of Nanoparticles of Metal Oxides and Hydrous Oxides and their Applications in Photocatalysts and Electrode Materials. Australia is a world-leading producer of raw materials of many metallic elements, most of which are exported at low-values. This project will yield important knowledge in new synthetic techniques for making nanostructures of metal oxides. These tiny particles already have a large worldwide market, but the discovery of particles with superior properties or new applicatio ....Reactions of Nanoparticles of Metal Oxides and Hydrous Oxides and their Applications in Photocatalysts and Electrode Materials. Australia is a world-leading producer of raw materials of many metallic elements, most of which are exported at low-values. This project will yield important knowledge in new synthetic techniques for making nanostructures of metal oxides. These tiny particles already have a large worldwide market, but the discovery of particles with superior properties or new applications could lead to new industries and high-value exports. This project aims to devise novel photocatalysts for solar energy conversion and environmental protection, and electrode materials for lithium batteries. It will contribute to the overall competitiveness and productivity of Australian R&D by advancing scientific knowledge and training young researchers.Read moreRead less
Polyoxometalate Clusters: Catalytic Chemistry in Solution and Condensed States. Polyoxometalate cluster anions are soluble metal-oxygen clusters that are cheap, robust and non-toxic.
Conditions for systematic tuning of redox potentials over the range +2 to -3 V have become accessible via certain photo-active polyoxometalates. The same system can provide powerful oxidants (that rival chlorine) and powerful reductants (that rival potassium).
The program will take advantage of this unique ....Polyoxometalate Clusters: Catalytic Chemistry in Solution and Condensed States. Polyoxometalate cluster anions are soluble metal-oxygen clusters that are cheap, robust and non-toxic.
Conditions for systematic tuning of redox potentials over the range +2 to -3 V have become accessible via certain photo-active polyoxometalates. The same system can provide powerful oxidants (that rival chlorine) and powerful reductants (that rival potassium).
The program will take advantage of this unique range of properties to explore:-
(i) coupling of photo- and electro-chemical processes into effective catalytic cycles;
(ii) photo- and electro-chemical processes in ionic liquid solvents;
(iii) synthesis and redox reactivity of nanoparticles stabilised by polyoxometalates.
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