Discovery Early Career Researcher Award - Grant ID: DE160100888
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Illuminating drug activity in the brain with nanocrystalline beacons. The project focuses on developing technologies to understand the activity of drugs and precisely locate their target sites in the brain. Novel nanocrystalline beacons and ultrahigh-sensitivity optical imaging technology developed in the project have the aim to help visualise opioid and other related drug molecules over extended periods, which is impossible with current methods. Quantifying drug target distribution in the brain ....Illuminating drug activity in the brain with nanocrystalline beacons. The project focuses on developing technologies to understand the activity of drugs and precisely locate their target sites in the brain. Novel nanocrystalline beacons and ultrahigh-sensitivity optical imaging technology developed in the project have the aim to help visualise opioid and other related drug molecules over extended periods, which is impossible with current methods. Quantifying drug target distribution in the brain and imaging their dynamics on a single molecule level will shed light on drug-target interactions.Read moreRead less
Tuning the electrolytes for high efficiency solar splitting of water. This project will develop a new technology that uses ionic liquids and sunlight to split water into hydrogen and oxygen to be used as a clean fuel. Australia has abundant sunlight, is very close to the growing energy markets of the Asia-Pacific region, and is ideally placed to benefit from this new technology.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100234
Funder
Australian Research Council
Funding Amount
$155,000.00
Summary
Facility for Nanometer Scale Microscopy, Characterization, and Fabrication. Facility for nanometre-scale microscopy, characterisation, and fabrication:
This project aims to create a collaborative research facility for the microscopy and characterisation of nanometre structured devices and materials, enabling researchers to visualise and quantify the topography, chemical composition and structure of samples with a resolution approaching the atomic scale. A WiTek Alpha300SR microscope is capable ....Facility for Nanometer Scale Microscopy, Characterization, and Fabrication. Facility for nanometre-scale microscopy, characterisation, and fabrication:
This project aims to create a collaborative research facility for the microscopy and characterisation of nanometre structured devices and materials, enabling researchers to visualise and quantify the topography, chemical composition and structure of samples with a resolution approaching the atomic scale. A WiTek Alpha300SR microscope is capable of simultaneous atomic force microscopy, near-field scanning optical microscopy, photocurrent mapping, and Raman spectroscopy. These capabilities would allow the mapping of topography and chemical composition, response to optical stimulus, and the structure of materials in 3-D with nanometre-scale resolution on surfaces. This instrument would support research in areas such as organic photovoltaics, nanofabrication, polymer electronics, ionic fluids, functional interfaces, and thermionic devices.Read moreRead less