Special Research Initiatives - Grant ID: SR0354527
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Frontier technologies, prototypes and strategic positioning for the international radio telescope, the Square Kilometre Array. This Network will forge new linkages between scientists and engineers to design and enable an advanced prototype for the international next-generation radio telescope, the Square Kilometre Array (SKA). The prototype will make fundamental new tests of general relativity and the physics of dark energy and test SKA imaging and signal processing systems. The Network partners ....Frontier technologies, prototypes and strategic positioning for the international radio telescope, the Square Kilometre Array. This Network will forge new linkages between scientists and engineers to design and enable an advanced prototype for the international next-generation radio telescope, the Square Kilometre Array (SKA). The prototype will make fundamental new tests of general relativity and the physics of dark energy and test SKA imaging and signal processing systems. The Network partners will collaborate to develop low-cost technologies for ultra-wideband antennas, high-speed signal processing, software radios, mitigation of man-made interference and the handling of petabyte data sets. The aim is a leading role for Australian researchers and industry in the $2 billion SKA.Read moreRead less
Special Research Initiatives - Grant ID: SR0354551
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the ....ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the world's renewable energy industry. An effective structure for networking and for the exchange of people, information and research results will maintain and improve Australia's position in this rapidly growing industry.Read moreRead less
ARC Centre for Nanostructured Electromaterials. Electromaterials transport electrons or ions and facilitate charge transfer, underpinning most energy capture/storage processes and cell communication. We propose a national Centre to develop nanostructured electromaterials with exceptional properties. The Centre aims to synthesise novel nanomaterials and assemble them into innovative nanoscale devices. We will exploit these materials to enhance performance in energy conversion/storage systems (eg. ....ARC Centre for Nanostructured Electromaterials. Electromaterials transport electrons or ions and facilitate charge transfer, underpinning most energy capture/storage processes and cell communication. We propose a national Centre to develop nanostructured electromaterials with exceptional properties. The Centre aims to synthesise novel nanomaterials and assemble them into innovative nanoscale devices. We will exploit these materials to enhance performance in energy conversion/storage systems (eg. photovoltaics, batteries, including wearable systems), and novel energy transfer in bioapplications (eg. Bionic Ear). These advances, together with the resource of trained personnel, will assist Australian industry to exploit this exciting area.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100048
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Nanoscale optical microscopy facility. The optical microscope has enabled us to see micro-objects, leading to revolutionary discoveries in medicine and natural sciences. However, the smallest object resolved by a microscope is limited by the wavelength of light. To see nanoscale objects smaller than the wavelength, a new tool for nano-imaging is needed. This project will establish a nanoscale optical microscopy facility that will reveal the topology and true colours of the nano-objects. Such inf ....Nanoscale optical microscopy facility. The optical microscope has enabled us to see micro-objects, leading to revolutionary discoveries in medicine and natural sciences. However, the smallest object resolved by a microscope is limited by the wavelength of light. To see nanoscale objects smaller than the wavelength, a new tool for nano-imaging is needed. This project will establish a nanoscale optical microscopy facility that will reveal the topology and true colours of the nano-objects. Such information, achieved through spectroscopic analysis of the light emitted or scattered at the nanoscale, will uncover some of the most fundamental aspects of the nanoworld, leading to cutting-edge scientific discoveries and important industrial applications in photonics and solar energy.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100177
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Advanced electron paramagnetic resonance (EPR) facilities for chemical, biological and materials sciences. New instrumentation to advance national research in hydrogen fuel generation from renewable sources, new generation photo-voltaic technologies, novel polymer and other chemical materials and advanced computing systems will be provided by this project. A new high sensitivity electron paramagnetic resonance facility, located at the Australian National University, will serve researchers in the ....Advanced electron paramagnetic resonance (EPR) facilities for chemical, biological and materials sciences. New instrumentation to advance national research in hydrogen fuel generation from renewable sources, new generation photo-voltaic technologies, novel polymer and other chemical materials and advanced computing systems will be provided by this project. A new high sensitivity electron paramagnetic resonance facility, located at the Australian National University, will serve researchers in the ACT region devoted to the broad range of activities summarised above. A particular focus involves novel, biologically inspired energy systems and high efficiency solar cell technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560683
Funder
Australian Research Council
Funding Amount
$321,953.00
Summary
A furnace stack for advanced photovoltaic, photonic and microfabrication applications. Advanced silicon photovoltaic, photonic, optoelectronic and micro-electromechanical devices require state of the art processing equipment for the deposition of thin dielectric films and for controlled doping of the devices. Key techniques include the deposition of stoichiometric and silicon rich silicon nitride and silicon dioxide films, and the controlled wafer doping with boron and phosphorus. A state of the ....A furnace stack for advanced photovoltaic, photonic and microfabrication applications. Advanced silicon photovoltaic, photonic, optoelectronic and micro-electromechanical devices require state of the art processing equipment for the deposition of thin dielectric films and for controlled doping of the devices. Key techniques include the deposition of stoichiometric and silicon rich silicon nitride and silicon dioxide films, and the controlled wafer doping with boron and phosphorus. A state of the art furnace stack is to be procured which will satisfy these requirements on industrially relevant wafer sizes up to 150mm. The equipment will support a broad range of research projects in the above fields, ranging from fundamental investigations to applied research carried out in collaboration with industry partners.Read moreRead less
Enhancing the Understanding and Performance of Passivating TiO2 Coatings for Photovoltaic Devices. Titanium dioxide (TiO2) has been widely used as an antireflection coating in the silicon (Si) photovoltaics industry as it exhibits excellent optical properties and low deposition cost. However, recently manufacturers have been turning to alternatives such as hydrogenated silicon nitride coatings that exhibit greatly improved electronic properties, but cost 4 - 10 times more to deposit. This proj ....Enhancing the Understanding and Performance of Passivating TiO2 Coatings for Photovoltaic Devices. Titanium dioxide (TiO2) has been widely used as an antireflection coating in the silicon (Si) photovoltaics industry as it exhibits excellent optical properties and low deposition cost. However, recently manufacturers have been turning to alternatives such as hydrogenated silicon nitride coatings that exhibit greatly improved electronic properties, but cost 4 - 10 times more to deposit. This project seeks to understand the fundamental limitations behind the poor surface passivation afforded by TiO2 to a Si wafer, and subsequently develop a passivating TiO2 coating that can reduce the cost of electricity generated by Si solar cells.Read moreRead less