Inorganic/organic Hybrids for flexible thermoelectric generators. Flexible thermoelectric generators can directly harvest electricity from body heat, offering a new technology for wearable electronics, but their unsatisfied performance limits their applications. This project aims to design high-efficient and mechanically robust flexible thermoelectric devices based on novel hybrids with quantum dots and conducting polymers as key components. The key breakthrough is to establish unique devices wi ....Inorganic/organic Hybrids for flexible thermoelectric generators. Flexible thermoelectric generators can directly harvest electricity from body heat, offering a new technology for wearable electronics, but their unsatisfied performance limits their applications. This project aims to design high-efficient and mechanically robust flexible thermoelectric devices based on novel hybrids with quantum dots and conducting polymers as key components. The key breakthrough is to establish unique devices with record-high thermoelectric efficiency and to illustrate the underlying mechanisms for searching new-type flexible thermoelectrics. The expected outcomes will lead to innovative technology for energy conversion and advanced manufacturing and place Australia at the forefront of energy and manufacturing fields.Read moreRead less
High performance electromagnetic airborne mineral exploration for discovery of deep earth resources. Airborne mineral exploration underpins Australia’s mining industry. Sensing systems are particularly effective for discovering nickel ore and water bodies but salty soil often blocks signals. This project uses a patented breakthrough in vibration isolation to create instruments able to detect minerals 50 per cent to 100 per cent deeper than normal.
Modelling network innovation performance capability: a multidisciplinary approach. Innovation is created in complex network interactions.
By combining agent-based and fuzzy logic modelling, this project will identify combinations of resources to generate new ideas/technologies. This will enable managers and policy makers to understand the mechanisms behind innovation and implement policies aimed at enhancing innovation processes.
Capturing gravitational wave and electromagnetic flashes from binary merger. This project aims to contribute to one of the most momentous and long-anticipated discoveries in physics: the first detection of gravitational waves. The project plans to develop innovative technologies to detect gravitational waves using laser interferometers and enable prompt follow-up observations of gravitational wave sources by conventional telescopes. The outcome of this research would greatly help probe the natur ....Capturing gravitational wave and electromagnetic flashes from binary merger. This project aims to contribute to one of the most momentous and long-anticipated discoveries in physics: the first detection of gravitational waves. The project plans to develop innovative technologies to detect gravitational waves using laser interferometers and enable prompt follow-up observations of gravitational wave sources by conventional telescopes. The outcome of this research would greatly help probe the nature of matter and gravity at extreme densities.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100346
Funder
Australian Research Council
Funding Amount
$328,075.00
Summary
Probing extreme astrophysics via rapid response to cosmic explosions. This project aims to reveal the radio emission properties of particular classes of gravitational wave events through the utilisation and further development of rapid-response observing systems on Australian radio telescopes. The project will use Australian radio telescopes to rapidly and automatically obtain observations of short-duration gamma-ray bursts, which are thought to be a subclass of gravitational wave events. It is ....Probing extreme astrophysics via rapid response to cosmic explosions. This project aims to reveal the radio emission properties of particular classes of gravitational wave events through the utilisation and further development of rapid-response observing systems on Australian radio telescopes. The project will use Australian radio telescopes to rapidly and automatically obtain observations of short-duration gamma-ray bursts, which are thought to be a subclass of gravitational wave events. It is anticipated such observations will provide vital insight into the early-time radio signatures of gravitational wave events and that rapid-response experiments will contribute invaluable knowledge towards optimising transient science conducted with the Square Kilometre Array.Read moreRead less