Development of novel high efficiency thermoelectric oxides for high temperature power generation. Thermoelectric materials are considered as a key factor in clean energy production, based on the conversion of waste heat emitted by power plants and automobiles to electricity. A series of novel high performance Co-based oxide thermoelectric materials will be developed by this project using nanotechnology and advanced material processing techniques. Significant improvement of the heat-to-electricit ....Development of novel high efficiency thermoelectric oxides for high temperature power generation. Thermoelectric materials are considered as a key factor in clean energy production, based on the conversion of waste heat emitted by power plants and automobiles to electricity. A series of novel high performance Co-based oxide thermoelectric materials will be developed by this project using nanotechnology and advanced material processing techniques. Significant improvement of the heat-to-electricity conversion factor is expected to result from the proposed program. The novel thermoelectric oxides with high thermoelectric performance will be practically used for high temperature power generation. This will provide a long-term solution to the global warming threat through decreasing amounts of waste heat presently generated. Read moreRead less
Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excel ....Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excellent training for PhD students and post doctoral Research Fellows, enabling them to work in and contribute to the development of new nanotechnology industries in Australia.Read moreRead less
Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced ma ....Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced materials research, this project investigates the integration of novel carbon nanostructures with extraordinary properties to produce high performance electrodes, that should lead to significant improvement in fuel cell performance.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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Novel nanostructured high energy cathode material. Recently, the demand for rechargeable batteries has exploded due to the enormous increase in the variety and number of miniaturized devices. It is expected that this demand for high capacity rechargeable batteries as energy sources will become even greater in the future. This program is focused to develop novel high performance cathode materials for lithium rechargeable batteries. The outcomes of the project will be of great benefit to develop ....Novel nanostructured high energy cathode material. Recently, the demand for rechargeable batteries has exploded due to the enormous increase in the variety and number of miniaturized devices. It is expected that this demand for high capacity rechargeable batteries as energy sources will become even greater in the future. This program is focused to develop novel high performance cathode materials for lithium rechargeable batteries. The outcomes of the project will be of great benefit to develop new class rechargeable batteries that are economical, lightweight, environmentlly benign and high energy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100015
Funder
Australian Research Council
Funding Amount
$523,899.00
Summary
Integrated Tip-Enabled Nanofabrication and Characterisation at Atomic Scale. This project aims to establish the most advanced all-in-one multifunctional system going beyond the best system in the world. This facility is expected to combine tip-enabled nanofabrication, imaging, photo-/electrochemical, and electromechanical measurement to realise atomically precisely controlled nanofabrication, in-situ imaging, and real-time measurement of single active sites in micro and nanoscale devices.The pro ....Integrated Tip-Enabled Nanofabrication and Characterisation at Atomic Scale. This project aims to establish the most advanced all-in-one multifunctional system going beyond the best system in the world. This facility is expected to combine tip-enabled nanofabrication, imaging, photo-/electrochemical, and electromechanical measurement to realise atomically precisely controlled nanofabrication, in-situ imaging, and real-time measurement of single active sites in micro and nanoscale devices.The proposed facility features high-quality measurements in an unmatched spatial and temporal range, allowing studying physical and chemical phenomena that are difficult to detect using conventional methods. The proposed integrated system will be the first of its kind in Australia. Read moreRead less
Development of Carbon Nanotube Nanothermometers and Their Application for Temperature Measurement in the Catalytic Layers of Fuel Cells. The project encompasses cutting-edge work in nanotechnology and advanced materials, covering aspects of carbon nanotubes and their applications, along with fuel cell technology. It will provide unique insights into the phenomena of the nanoworld, including manipulation of nanotubes, and nanoscale oxidation behaviour and temperature measurement. The scientific a ....Development of Carbon Nanotube Nanothermometers and Their Application for Temperature Measurement in the Catalytic Layers of Fuel Cells. The project encompasses cutting-edge work in nanotechnology and advanced materials, covering aspects of carbon nanotubes and their applications, along with fuel cell technology. It will provide unique insights into the phenomena of the nanoworld, including manipulation of nanotubes, and nanoscale oxidation behaviour and temperature measurement. The scientific and engineering understanding acquired through this project is vital for solving the problems that limit the wide application of fuel cells. Ultimately, full commercialisation of fuel cells will provide significant environmental benefits by increasing the use of renewable energy sources and reducing greenhouse gas emissions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775548
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
Advanced characterisation facilities for functional nanostructured materials. A critical factor that enhances frontier research is a set of advanced core research experimental facilities for material characterisation purposes. The proposed equipment aims to: (1) provide research facilities for advanced nanomaterial research; (2) improve national competitiveness and growth in a knowledge-based economy; and (3) foster local talented researchers in order to meet the strategic needs of the nation fo ....Advanced characterisation facilities for functional nanostructured materials. A critical factor that enhances frontier research is a set of advanced core research experimental facilities for material characterisation purposes. The proposed equipment aims to: (1) provide research facilities for advanced nanomaterial research; (2) improve national competitiveness and growth in a knowledge-based economy; and (3) foster local talented researchers in order to meet the strategic needs of the nation for a sustainable environment. These activities will revitalise Australia's leading role in creating new technologies with particular relevance to using advanced nanostructures for the production of clean air and water, and sustainable energy alternatives.Read moreRead less
Development of nano-structured thermoelectric materials for power generation from heat. To make thermoelectric technology attractive for practical power generation purposes, new high efficiency materials have to be developed. Our fabricated nanostructured thermoelectric materials will have improved performance due to the peculiarities in electrical and thermal transport. The novel thermoelectric materials and constructed prototype devices with high thermoelectric performance will be practically ....Development of nano-structured thermoelectric materials for power generation from heat. To make thermoelectric technology attractive for practical power generation purposes, new high efficiency materials have to be developed. Our fabricated nanostructured thermoelectric materials will have improved performance due to the peculiarities in electrical and thermal transport. The novel thermoelectric materials and constructed prototype devices with high thermoelectric performance will be practically used for various power generation purposes. This offers a long-term solution to the global warming threat through decreasing amounts of waste heat presently generated. It will also strengthen Australia's position in world-wide research on thermoelectricity.Read moreRead less