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Functionalised nanomaterials for application as multimodal cancer imaging agents. Nanomaterials offer exciting opportunities for emerging diagnostic applications targeted to specific diseases. In this project, cutting-edge fundamental scientific developments will be pursued that will advance the application of nanomaterials in the diagnosis of cancer, a disease that accounts for over 40,000 deaths in Australia annually.
Functional molecular nanomaterials. The design and construction of advanced nanomaterials is a key step in the push towards more efficient energy systems and smarter technologies. Through the strategic assembly of new classes of molecular nanomaterials, this project will lead to important fundamental advances in nanoscience and will underpin a range of new high-level technologies.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100109
Funder
Australian Research Council
Funding Amount
$530,000.00
Summary
Small molecule X-ray molecular structure elucidation facility. X-ray diffraction plays a key role in identification and molecular characterisation. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry, amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-t ....Small molecule X-ray molecular structure elucidation facility. X-ray diffraction plays a key role in identification and molecular characterisation. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry, amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art research and training facilities for these techniques.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100615
Funder
Australian Research Council
Funding Amount
$374,607.00
Summary
Rational design and fabrication of polyoxometalate based nanodevices. Currently switches, memories and sensors are constructed through physical manipulation of their various components. Using single molecules we plan to develop self-organising systems, resulting in self-constructing devices. This will enable device miniaturisation to the smallest of length scales, dramatically influencing modern day electronics.
The systematic development of fundamentally important group 15 compounds: their applications to innovative industrial and environmental processes. The strong coordinating ability of organo-phosphorus/arsonic acids will be harnessed to support a series of metallic clusters that will be exploited for their use as magnetic materials in gas storage and as catalysts. The novel acids will be investigated for use as water soluble purification agents for, for example, mercury, uranium and lead.
New technologies for e-waste recycling. This project aims to provide commercially viable methods for recycling electronic waste (e-waste), with a focus on plastic recycling and precious metal recovery from circuit boards. This project expects to generate new knowledge in the separation and recovery of gold, silver, and palladium using novel leach reagents and sorbents. Additionally, new techniques will be evaluated for converting e-waste plastic into construction materials. Expected outcomes of ....New technologies for e-waste recycling. This project aims to provide commercially viable methods for recycling electronic waste (e-waste), with a focus on plastic recycling and precious metal recovery from circuit boards. This project expects to generate new knowledge in the separation and recovery of gold, silver, and palladium using novel leach reagents and sorbents. Additionally, new techniques will be evaluated for converting e-waste plastic into construction materials. Expected outcomes of this project include new capabilities for Australia's e-waste recycling industry, as the majority of circuit board waste is shipped overseas. This should provide significant economic benefits such as the recovery of valuable metals and the development of novel construction materials.Read moreRead less
Improving solar energy utilisation by splitting water with visible light. The project seeks to improve solar-hydrogen fuel production via water splitting by addressing a fundamental scientific roadblock. By engineered nanostructures with controlled charge transfer abilities, the most desirable route to water splitting will be promoted; granting Australia an opportunity to develop a solar-based renewable fuel.
New silane anti-corrosion coatings for steel surfaces. Steel products are a major export for Australia. Orrcon is one of Australia's largest suppliers of steel pipe and tubing. This study of how to stop steel from corroding will produce new breakthroughs in understanding silane chemistry, which is safer, cheaper and more effective in reducing rust, than what is being used today. This new science will benefit Australia's research into corrosion and help us to be more competitive in the export of ....New silane anti-corrosion coatings for steel surfaces. Steel products are a major export for Australia. Orrcon is one of Australia's largest suppliers of steel pipe and tubing. This study of how to stop steel from corroding will produce new breakthroughs in understanding silane chemistry, which is safer, cheaper and more effective in reducing rust, than what is being used today. This new science will benefit Australia's research into corrosion and help us to be more competitive in the export of steel. Our proof of concept studies on the corrosion resistance of new silanes on aerospace aluminium alloys has helped Australian products enter markets where chromium(VI) is now banned. Silicon chemistry is also little researched in Australia and this project will train four new researchers in this field.Read moreRead less
Janus particles and nanorattles: new materials for paint technology. This project will pave the way for self cleaning paints that achieve opacity with greatly reduced titanium dioxide levels. Painted surfaces will maintain their clean and new look for longer and a clean town look will be much more readily maintained. More efficient use of titanium dioxide will reduce the need for sand mining and reduce the cost of quality paint.
Polymer micro-capsules for stain-resistant paint. This project aims to create an advanced micro-capsule system to be used in the manufacturing of high-performance waterborne paints on a large scale. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry. Despite their importance, advances in paint science have only been incremental and a truly stain-resistant, robust and environmentally friendly coating has yet to be developed. This project will use pol ....Polymer micro-capsules for stain-resistant paint. This project aims to create an advanced micro-capsule system to be used in the manufacturing of high-performance waterborne paints on a large scale. Surface coatings seal, strengthen, and decorate the majority of surfaces in the building industry. Despite their importance, advances in paint science have only been incremental and a truly stain-resistant, robust and environmentally friendly coating has yet to be developed. This project will use polymer Janus nanoparticles to radically redesign architectural coatings, with the goal to reduce the use of non-renewable components, and increase stain-resistance and durability. This new technology will lead to less disruption for the environment, and important economic and technological benefits for Australia.Read moreRead less