Unified platform for real time QA in radiation therapy in brachytherapy based on high resolution silicon detectors (Magic Plate). This project will design and manufacture new devices for measuring the amount of radiation given to the patient during radiotherapy. This will improve the accuracy and safety of cancer treatment as well as greatly reducing the time needed to perform essential safety checks.
Industrial Transformation Training Centres - Grant ID: IC170100022
Funder
Australian Research Council
Funding Amount
$4,420,408.00
Summary
ARC Training Centre for Innovative BioEngineering. The ARC Training Centre for Musculoskeletal Biomedical Technologies will provide the next-generation of skilled graduates to overcome industry-focused challenges in musculoskeletal regeneration. The Centre expects to engineer a set of integrated technologies to personalise implants for the unique biological, physical and lifestyle characteristics of the recipient. Expected outcomes of the Centre include embedded bioelectronic sensors to assess a ....ARC Training Centre for Innovative BioEngineering. The ARC Training Centre for Musculoskeletal Biomedical Technologies will provide the next-generation of skilled graduates to overcome industry-focused challenges in musculoskeletal regeneration. The Centre expects to engineer a set of integrated technologies to personalise implants for the unique biological, physical and lifestyle characteristics of the recipient. Expected outcomes of the Centre include embedded bioelectronic sensors to assess and optimise the healing process. In addition, the Centre will produce data for use in deriving the next-generation of implants, giving rise to improved health outcomes, economic benefits, and a skilled workforce able to advance and perpetuate this important field.Read moreRead less
Understanding how nanoconfinement can enhance electrochemical reactions. The aim of this project will be to develop a far greater understanding of the impact of nanoconfinement in electrochemistry. The project will generate this knowledge by fabricating electrodes with well-defined nanoconfined spaces coupled with molecular dynamic and continuum simulations of the electrochemical systems. The expected outcomes will be an understanding the impact of dimensions of the nanoconfined spaces, the surf ....Understanding how nanoconfinement can enhance electrochemical reactions. The aim of this project will be to develop a far greater understanding of the impact of nanoconfinement in electrochemistry. The project will generate this knowledge by fabricating electrodes with well-defined nanoconfined spaces coupled with molecular dynamic and continuum simulations of the electrochemical systems. The expected outcomes will be an understanding the impact of dimensions of the nanoconfined spaces, the surface chemistry of these spaces and the electrolyte solution, a comprehensive understanding of nanoconfinement in electrochemistry. The benefits will be a dramatic improvement in the performance of electrochemical technologies for electrocatalysis, energy storage and sensing.Read moreRead less
Rapid detection of rare-event cells by strong UP-conversion
encoded nano-radiators (SUPER Dots): finding a needle in a haystack. Current diagnostic tests are not sensitive enough to detect cancer in its very early stages or early recurrence following treatment. The new technologies developed by this project will be able to find single cancer cells in blood and urine samples heralding a new era in medical diagnostics.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100159
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
National facility for biased target deposition of alloyed nanolayers. This facility will enhance Australia's strengths and capabilities in fabricating structures, with applications in multiple research fields including opto-magneto-electronics, next generation lithium ion batteries and energy nanogenerators. It will enhance Australia's research profile as a leader in nanotechnology.