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Australian Laureate Fellowships - Grant ID: FL150100060
Funder
Australian Research Council
Funding Amount
$2,875,097.00
Summary
The first generation of single entity measurement tools for analysis. The first generation of single entity measurement tools for analysis: This fellowship project aims to develop a new type of diagnostic device that measures single molecules or single cells. Such measurements seek to revolutionise analysis by allowing heterogeneity and rare events in samples to be identified, rather than the average information provided by existing tools. With single molecule devices, the heterogeneity in respo ....The first generation of single entity measurement tools for analysis. The first generation of single entity measurement tools for analysis: This fellowship project aims to develop a new type of diagnostic device that measures single molecules or single cells. Such measurements seek to revolutionise analysis by allowing heterogeneity and rare events in samples to be identified, rather than the average information provided by existing tools. With single molecule devices, the heterogeneity in response enables the development of multiplexed, calibration free sensors. The outcomes of the project are hoped to be completely new thinking on performing measurements, new knowledge regarding heterogeneity in biology and the potential for novel commercialised sensors. It is expected that this will be important not only in biological discovery, but also in providing far more robust sensors for applications such as environmental monitoring, disease prediction, personalised medicine or drug discovery.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100041
Funder
Australian Research Council
Funding Amount
$2,327,500.00
Summary
Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling compl ....Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling complex molecules and materials. The project also offers a unique opportunity to train the next generation of chemists in the principles of computer-aided chemical design. The catalysts developed in this project will be able to accelerate and control the chemical reactions used in the synthesis of pharmaceuticals and materials, with significant practical benefits to industry.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100117
Funder
Australian Research Council
Funding Amount
$2,713,582.00
Summary
Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better cat ....Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better catalysts. Other applications include bio-sensing and rapid pathogen detection. To realise these potential outcomes, a leading international cluster focussing on plasmonics will be set up and this cluster will link state-of-the-art materials science, instrumentation and theory.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL110100196
Funder
Australian Research Council
Funding Amount
$2,638,208.00
Summary
New dimensions in organic bionics. The advent of the next generation of medical bionic devices is critically dependent on advances in multifunctional organic materials that, like living systems, provide spatial and temporal control. These advances will provide a platform to revolutionise medical treatments such as nerve and muscle regeneration, with impact on neural prosthetics.
Australian Laureate Fellowships - Grant ID: FL120100019
Funder
Australian Research Council
Funding Amount
$2,879,582.00
Summary
Protonic materials for green chemical futures. By emulating the structures that nature has evolved this project will create novel materials that will be used to develop new sustainable chemical technologies. Working with local and international collaborators, outcomes will include new approaches to the conversion of carbon dioxide into valuable chemicals and for renewable energy generation and storage.
Australian Laureate Fellowships - Grant ID: FL140100052
Funder
Australian Research Council
Funding Amount
$2,500,000.00
Summary
Macromolecular design for bio-imaging and targeted delivery. Macromolecular design for bio-imaging and targeted delivery. A thorough understanding of how nanoparticles interact with biological systems is imperative if advances are to be made in using nanotechnology for therapeutic applications. Fundamental aspects of nanoparticle transport, targeting and cell uptake will be investigated. This project aims to design novel nanoparticulate systems for the delivery of both an endogenous signalling ....Macromolecular design for bio-imaging and targeted delivery. Macromolecular design for bio-imaging and targeted delivery. A thorough understanding of how nanoparticles interact with biological systems is imperative if advances are to be made in using nanotechnology for therapeutic applications. Fundamental aspects of nanoparticle transport, targeting and cell uptake will be investigated. This project aims to design novel nanoparticulate systems for the delivery of both an endogenous signalling molecule and genes to cells. The project aims to inform future optimal design criteria for bespoke nanoparticle delivery systems.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100019
Funder
Australian Research Council
Funding Amount
$2,606,250.00
Summary
Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know- ....Proteins in motion - new tools for biotechnology. This project aims to assess the function of proteins by monitoring their motions using new nuclear magnetic resonance (NMR) spectroscopy techniques. As snapshots of 3D protein structures have been determined by crystallography, the new tools are designed to analyse functionally important motions in solution. A facility for ultrafast (> 100 kHz) magic angle spinning NMR spectroscopy of proteins in the semi-solid state will bring cutting-edge know-how to Australia and allow the interrogation of 3D structure and dynamics in selected protein regions. The expected outcomes of the project will have immediate benefits for the rational engineering of biocatalysts and in the design of lead compounds in drug development.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL0992138
Funder
Australian Research Council
Funding Amount
$3,100,000.00
Summary
Towards antibacterials without resistance. Innovative automation technologies will be used to create and investigate a revolutionary new approach to disable pathogenic superbugs, bacteria resistant to multiple antibiotics. The chemicals created and proteins evaluated in this research program will advance fundamental knowledge about the molecular weapons that bacteria produce to cause disease; deliver social and economic benefits to Australia through the development of potential new antibacterial ....Towards antibacterials without resistance. Innovative automation technologies will be used to create and investigate a revolutionary new approach to disable pathogenic superbugs, bacteria resistant to multiple antibiotics. The chemicals created and proteins evaluated in this research program will advance fundamental knowledge about the molecular weapons that bacteria produce to cause disease; deliver social and economic benefits to Australia through the development of potential new antibacterial treatments; contribute to Australia's continued international leading role in drug discovery research; enhance international links and attract industry investment in Australia; and provide a stimulating research training environment to inspire and motivate the next generation of scientists.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL150100146
Funder
Australian Research Council
Funding Amount
$2,977,310.00
Summary
Taking Australia from the farm to the pharm. Taking Australian from the farm to the pharm: This fellowship project aims to design novel drugs based on cyclic peptides that will be expressed in the seeds of plants to produce bio-pills — saving money for patients and the health care system. Plants produce unique cyclic peptides (mini-proteins) to protect themselves from pests and pathogens. This project aims to chemically redesign these peptides to produce stable protein-based pharmaceuticals that ....Taking Australia from the farm to the pharm. Taking Australian from the farm to the pharm: This fellowship project aims to design novel drugs based on cyclic peptides that will be expressed in the seeds of plants to produce bio-pills — saving money for patients and the health care system. Plants produce unique cyclic peptides (mini-proteins) to protect themselves from pests and pathogens. This project aims to chemically redesign these peptides to produce stable protein-based pharmaceuticals that can be eaten. It is hoped that these designer pharmaceuticals will be inexpensive, effective, easy to ingest and without the side effects of traditional drugs. The outcomes of this project are anticipated to be high-value drugs and agri-chemicals which will open up new high-value crops for Australian farmers and a new Australian ‘pharming’ industry.Read moreRead less