Australian Laureate Fellowships - Grant ID: FL230100023
Funder
Australian Research Council
Funding Amount
$3,362,355.00
Summary
Highly efficient microscale liquid handling and bio interfacing. The aim is to establish the exciting new field of micro elastofluidics, enabling the development of a highly competitive, sovereign capability in Australia, utilising flexibility and stretchability for efficient and precise handling of tiny volumes of liquid. The program will fill a critical gap in fundamental knowledge in fluid-structure interactions, leading to the development of wearable and implantable devices. The expected out ....Highly efficient microscale liquid handling and bio interfacing. The aim is to establish the exciting new field of micro elastofluidics, enabling the development of a highly competitive, sovereign capability in Australia, utilising flexibility and stretchability for efficient and precise handling of tiny volumes of liquid. The program will fill a critical gap in fundamental knowledge in fluid-structure interactions, leading to the development of wearable and implantable devices. The expected outcomes include innovative platform technologies for sample storage, handling and unique device-human interfaces with broad applications in health and defence. Expected benefits include enhanced capabilities in medical diagnostics, defence force protection and Australia’s sovereign high-tech manufacturing.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100453
Funder
Australian Research Council
Funding Amount
$442,408.00
Summary
Nervous tissue stimulation using Multi-Junction Silicon Photodiodes. Currently, in order to stimulate different areas in nervous tissue, brain-machine-interfaces (BMIs) usually rely on multi electrode arrays where each electrode is connected to a wire, that connects to other electronics, all of which has to be safely encapsulated, thus increasing the size of the devices and complicating the surgical procedure for implanted devices. This project aims to develop a silicon multi-junction photodiode ....Nervous tissue stimulation using Multi-Junction Silicon Photodiodes. Currently, in order to stimulate different areas in nervous tissue, brain-machine-interfaces (BMIs) usually rely on multi electrode arrays where each electrode is connected to a wire, that connects to other electronics, all of which has to be safely encapsulated, thus increasing the size of the devices and complicating the surgical procedure for implanted devices. This project aims to develop a silicon multi-junction photodiode that can provide a photovoltage high enough to efficiently excite nervous tissue. A BMI based on this approach could be much smaller and could be powered optically via thin fibres, thus in the long run enabling smaller and safer implants for restoring function in disabled people.Read moreRead less