Discovery Early Career Researcher Award - Grant ID: DE220100846
Funder
Australian Research Council
Funding Amount
$418,388.00
Summary
Ordering photon energy carriers for efficient upconversion. This project aims to tackle the major challenge of upconversion nanosystems – their brightness. It will centre on building a donor/acceptor-ordered nanosystem to improve the energy transfer efficiency in hybrid nanomaterials. This ordered system will significantly improve the brightness of hybrid nanoparticles at low irradiance. Expected outcomes include a fundamental understanding of energy transfer mechanisms at sub-nm scales and a ne ....Ordering photon energy carriers for efficient upconversion. This project aims to tackle the major challenge of upconversion nanosystems – their brightness. It will centre on building a donor/acceptor-ordered nanosystem to improve the energy transfer efficiency in hybrid nanomaterials. This ordered system will significantly improve the brightness of hybrid nanoparticles at low irradiance. Expected outcomes include a fundamental understanding of energy transfer mechanisms at sub-nm scales and a new strategy to brighten the upconversion nanomaterials. This project should push upconversion nanoscience to a new generation and provide significant benefits in ultra-sensitive biomolecular assays and in vivo bioimaging.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100564
Funder
Australian Research Council
Funding Amount
$353,258.00
Summary
On-Site, Reponsive and Less Invasive Drug Testing In Corrective Services. This project aims to develop a new drug screening system using nanomaterials interfaced with advanced mass spectrometry to improve testing speed, cost, and accuracy, and minimise the distress associated with current drug testing programs within corrective services. Currently, testing programs are costly, with confirmation taking multiple weeks, preventing appropriate responses to drug use and support service recommendation ....On-Site, Reponsive and Less Invasive Drug Testing In Corrective Services. This project aims to develop a new drug screening system using nanomaterials interfaced with advanced mass spectrometry to improve testing speed, cost, and accuracy, and minimise the distress associated with current drug testing programs within corrective services. Currently, testing programs are costly, with confirmation taking multiple weeks, preventing appropriate responses to drug use and support service recommendations. Additionally, vulnerable people in custody or on corrective orders find conventional urine testing distressing, especially when previously exposed to sexual violence. New accurate, rapid saliva testing on-site will revolutionise drug monitoring and provide an Australian designed solution for correctional jurisdictions. Read moreRead less