Surface modification of semiconducting organic charge transfer complexes with metal nanoparticles to create a new class of multifunctional materials. This project aims to deliver a facile and cheap method to produce a class of nanostructured composite materials to be used in applications which will have environmental and social benefits such as photocatalyst development for water purification, biosensing and the creation of antibacterial fabrics to prevent the spread of infection.
New strategies for highly sensitive chemical detection based on luminescent ruthenium and iridium complexes. Chemical reactions that emit tiny quantities of light, not even visible to the naked eye, can be used to detect the biomarkers of disease or traces of chemical or biological weapons in a terrorist attack. This project creates a new generation of reagents for this remarkably sensitive mode of detection for these and other important applications.
Rapid amperometric measurement of chemical oxygen demand in polluted water based on electrochemical and photocatalytic properties of nanoparticulates. The project will enhance a newly developed technology for measuring aggregate organic pollution in wastewater. The conventional wet chemistry method is disadvantaged by being slow (2 hr) and requiring toxic heavy metal (mercury, chromium) and hazardous reagents. Aqua Diagnostic's method, by contrast, is rapid (5-10 minutes) and uses only safe ch ....Rapid amperometric measurement of chemical oxygen demand in polluted water based on electrochemical and photocatalytic properties of nanoparticulates. The project will enhance a newly developed technology for measuring aggregate organic pollution in wastewater. The conventional wet chemistry method is disadvantaged by being slow (2 hr) and requiring toxic heavy metal (mercury, chromium) and hazardous reagents. Aqua Diagnostic's method, by contrast, is rapid (5-10 minutes) and uses only safe chemical reagents. It will be further improved to facilitate unprecedented near-real-time (less than 1 minute) online pollution monitoring and greater analytical robustness. The project will directly benefit the wastewater management community, enrich Australian industry's expertise in nanotechnology applications and grow high-tech exports as this innovative technology continues to penetrate international markets.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100179
Funder
Australian Research Council
Funding Amount
$3,189,000.00
Summary
Automated high resolution and high contrast cryo -TEM for three-dimensional structural biology. This project aims to establish a facility in automated, single-particle cryo-TEM and cryo-TEM tomography (Titan Krios) that will enable atomic and molecular structure research and three-dimensional subcellular and cellular imaging. The project will span all multiscale cryo-TEM modalities from the visualisation of cells, membranes and macromolecular complexes, through to near-atomic-resolution protein ....Automated high resolution and high contrast cryo -TEM for three-dimensional structural biology. This project aims to establish a facility in automated, single-particle cryo-TEM and cryo-TEM tomography (Titan Krios) that will enable atomic and molecular structure research and three-dimensional subcellular and cellular imaging. The project will span all multiscale cryo-TEM modalities from the visualisation of cells, membranes and macromolecular complexes, through to near-atomic-resolution protein structure determination. Cryo-single particle analysis and tomography are recognised as revolutionary technologies in molecular structural biology and powerful enablers of future ground-breaking discovery. The project will deliver significant competitive advantage for Australia in leading-edge structure-based research, drug discovery, new opportunities for applied research and development, and showcasing science to the public.Read moreRead less
Chemical mapping of materials at the atomic scale. This project will develop a method for measuring the chemical composition of technologically important nanomaterials. This capability will provide Australian scientists with an advanced method for the characterisation of materials and will help them to develop new and better materials for future applications.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100094
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Macromolecular characterisation and purification facility. In-depth characterisation of (bio)macromolecules and nanomaterials is fundamental to understanding their properties and application to advanced materials and technologies. The three new instruments at this facility dedicated to the purification, separation and characterisation of these compounds will provide an essential resource for polymer/materials research.
New biosensing strategies based on bipolar electrochemiluminescence. Chemical analysis is a vital activity in our society, which is to a large extent confined to scientific laboratories and carried out with complex instrumentation. The breakthrough technology envisioned in this proposal will pave the way for simple, low-cost tests which can be used by non-scientists. The development of small, portable sensors for applications ranging from pollution monitoring to health testing, will enable ordi ....New biosensing strategies based on bipolar electrochemiluminescence. Chemical analysis is a vital activity in our society, which is to a large extent confined to scientific laboratories and carried out with complex instrumentation. The breakthrough technology envisioned in this proposal will pave the way for simple, low-cost tests which can be used by non-scientists. The development of small, portable sensors for applications ranging from pollution monitoring to health testing, will enable ordinary people to gain knowledge about the concentrations of molecular compounds in their environments and in themselves. This will stimulate economic and social benefits related to environmental testing and early disease diagnosis and generate new commercial opportunities for the Australian biotechnology industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100213
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Advanced fluorescence characterisation facility. Fluorescence is the emission of light by a substance that has absorbed light of a different wavelength. Fluorescence techniques and fluorescent molecules have enabled a great many of the most important advances in biology, chemistry and medicine in recent decades. This facility will support a wide range of research projects using or exploring fluorescence and luminescence. The research supported will underpin advances in diverse scientific fields.
Nanopore sensors for multiplexed, ultra-fast gene detection. The aim of this research is to develop the application of protein nanopores for multiplex identification of DNA samples for ultrafast gene detection. This is a type of barcoding of organism DNA that allows for rapid gene identification. This technology aims to address a significant need for rapid, on-the-spot identification of organisms. Applications include rapid identification of pathogenic bacteria in infections and identification o ....Nanopore sensors for multiplexed, ultra-fast gene detection. The aim of this research is to develop the application of protein nanopores for multiplex identification of DNA samples for ultrafast gene detection. This is a type of barcoding of organism DNA that allows for rapid gene identification. This technology aims to address a significant need for rapid, on-the-spot identification of organisms. Applications include rapid identification of pathogenic bacteria in infections and identification of organisms in environmental sampling. Current methods are relative slow, require DNA amplification and specialised laboratories.
This proposal aims to fine tune the properties of the large nanopore, polyC9, with respect to size and charge, as well as to identify and characterise novel large nanopores. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101253
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Redox-mediated electrochemiluminescence enhancement for novel biosensors. This project aims to understand and apply a novel approach to the enhancement of diagnostic tests for agricultural biosecurity applications. Government and Industry require simple, rapid tests to monitor and detect threats to Australia’s agricultural biosecurity. This interdisciplinary project intends to enhance collaboration, generate fundamental advances in the field of analytical chemistry and bolster Australia’s resear ....Redox-mediated electrochemiluminescence enhancement for novel biosensors. This project aims to understand and apply a novel approach to the enhancement of diagnostic tests for agricultural biosecurity applications. Government and Industry require simple, rapid tests to monitor and detect threats to Australia’s agricultural biosecurity. This interdisciplinary project intends to enhance collaboration, generate fundamental advances in the field of analytical chemistry and bolster Australia’s research capabilities through new analytical techniques and technologies. The breadth of applications of this technology should also provide significant benefits to the Australian biotechnology industry, improve existing instrumentation and impact diverse research fields from biosecurity to health monitoring.
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