Discovery Early Career Researcher Award - Grant ID: DE240100507
Funder
Australian Research Council
Funding Amount
$444,471.00
Summary
Integrated active microcantilevers for high-throughput nanometrology. This project aims to develop a new versatile, high-performance microsensor platform and microscopy method for measuring nano-scale structures. The proposed microscopy tool is expected to significantly increase imaging speed and miniaturize system footprint, thereby enabling high-throughput quality control of semiconductor devices. The expected outcome is a highly-scalable and low-cost imaging system that will close the technol ....Integrated active microcantilevers for high-throughput nanometrology. This project aims to develop a new versatile, high-performance microsensor platform and microscopy method for measuring nano-scale structures. The proposed microscopy tool is expected to significantly increase imaging speed and miniaturize system footprint, thereby enabling high-throughput quality control of semiconductor devices. The expected outcome is a highly-scalable and low-cost imaging system that will close the technology gap between fabrication and inspection at the nanoscale. The benefits to Australia should include the potential for commercialization to develop this next-generation microscopy tool in high-value market sectors.Read moreRead less
Advanced geotechnical sensing and early warning system for smart highway. This project aims to develop an advanced sensing system with interactive analytical road health monitoring for smart highways. The project expects to provide potential savings of millions of dollars and improved road quality through targeted, optimised, value-for-money highway maintenance, identified by deployment of cost-effective, energy-efficient miniaturised electromechanical sensors. The expected outcome of this proje ....Advanced geotechnical sensing and early warning system for smart highway. This project aims to develop an advanced sensing system with interactive analytical road health monitoring for smart highways. The project expects to provide potential savings of millions of dollars and improved road quality through targeted, optimised, value-for-money highway maintenance, identified by deployment of cost-effective, energy-efficient miniaturised electromechanical sensors. The expected outcome of this project is the development of a fit-for-purpose and evidence-based early warning system for smart highway construction and maintenance. This should provide significant benefit through foreseeing potential geotechnical risks before they happen and enabling early intervention to enhance road safety and mitigate economic losses.Read moreRead less