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
In vivo molecular imaging using engineered affinity reagents and fluorescent laser scanning confocal endomicroscopy. The goal of this project is to develop laser scanning confocal endomicroscopy as a tool for basic scientific discovery and rapid detection of disease biomarkers. The cutting-edge instrument and associated technologies will provide scientists with unprecedented access to dynamic biological processes as they occur in real-time. In addition, it will enable the development of virtual ....In vivo molecular imaging using engineered affinity reagents and fluorescent laser scanning confocal endomicroscopy. The goal of this project is to develop laser scanning confocal endomicroscopy as a tool for basic scientific discovery and rapid detection of disease biomarkers. The cutting-edge instrument and associated technologies will provide scientists with unprecedented access to dynamic biological processes as they occur in real-time. In addition, it will enable the development of virtual biopsies and instant diagnosis without the need for costly and time-consuming histopathological reports. Thus, it will not only drive transformative research but also transform health care delivery. It will also be a major boost to the Australian biotechnology industry with potential for enormous economic benefits.Read moreRead less
Novel technologies for motion-compensated simultaneous Magnetic Resonance Imaging (MRI) and Positron Emission Tomography (PET) imaging. The aim of this work is to develop motion tracking and motion correction techniques for an emerging hybrid imaging technology, MR-PET. The MR-PET scanner simultaneously acquires structural MR images and functional PET images. The work will provide clearer images without the effects of motion blur for both research and clinical applications.
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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