Discovery Early Career Researcher Award - Grant ID: DE230100079
Funder
Australian Research Council
Funding Amount
$411,918.00
Summary
Anisotropic single-particle transducers. The project aims to tackle a major challenge in techniques that manipulate tiny particles – increasing the performance of transducer devices that convert magnetic forces to mechanical movement. It will centre on interactions on the surface of particular particles, bypassing a known scientific limit. Expected outcomes include a fundamental understanding of key factors that have recently been shown to enhance magnetic responsivity and efficient mechanical m ....Anisotropic single-particle transducers. The project aims to tackle a major challenge in techniques that manipulate tiny particles – increasing the performance of transducer devices that convert magnetic forces to mechanical movement. It will centre on interactions on the surface of particular particles, bypassing a known scientific limit. Expected outcomes include a fundamental understanding of key factors that have recently been shown to enhance magnetic responsivity and efficient mechanical manipulation and sensing in a magnetic field. The project outcomes will benefit developers by, for example, advanced nanoscale devices for robotics, sensing and molecular bioassays; controlling biophysical processes; and fundamental mechanobiology research.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100408
Funder
Australian Research Council
Funding Amount
$446,411.00
Summary
Advancing bioelectronics with silicon carbide on microfluidics. Flexible bioelectronics is an emerging technology for real-time monitoring of vital signals on skin and in the body. Microfluidics is a technology for fluid handling in microscale. This project aims to develop the first platform technology with both flexible bioelectronics and microfluidics for enhanced sensing, thermal management and actuation. The project is expected to establish new fundamental knowledge in sensitivity boosting m ....Advancing bioelectronics with silicon carbide on microfluidics. Flexible bioelectronics is an emerging technology for real-time monitoring of vital signals on skin and in the body. Microfluidics is a technology for fluid handling in microscale. This project aims to develop the first platform technology with both flexible bioelectronics and microfluidics for enhanced sensing, thermal management and actuation. The project is expected to establish new fundamental knowledge in sensitivity boosting mechanisms with nano-thin semiconducting films, practical prototypes for long-lasting bioelectronics with integrated microfluidics and their large-scale manufacturing processes. Outcomes include step changes in designing innovative wearable and implantable devices and their massive commercialisation opportunities.Read moreRead less