Boolean plasmonics: the design of nano-optical logic gates. The success of this project will see the development of an all-optical nano-scale logic gate. Such a device will drastically improve communications and information technology. Standard lithographic techniques will be used ensuring reproducibility and mass production, placing Australia at the forefront of the photonic market.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100026
Funder
Australian Research Council
Funding Amount
$480,000.00
Summary
A surface characterisation facility. This surface characterisation facility will provide scientists with an understanding of material's surfaces and interfaces. This will lead to a range of new technologies and innovative solutions required to address the many resource and environmental challenges facing our planet now and in the future.
Electronic functionality in nanoscale materials: from discovery to design. This project will develop innovative multifunctional carbon/boron-nitride nanomaterials by devising new strategies to manipulate their electronic functionality. Outcomes will include technological breakthroughs leading to smart materials for energy storage, greenhouse gas emission reduction and nanoelectronics.
Exploring electronic functionality in low-dimensional carbon and boron-nitride nanomaterials via advanced theoretical modelling. This project will spawn innovative carbon/boron nitride materials for next-generation electronics devices by devising new strategies to manipulate and control electronic structure as well as charge/spin transport properties. Outcomes will include technological breakthroughs leading to truly smaller, faster and smarter electronics materials.
Discovery Early Career Researcher Award - Grant ID: DE240100839
Funder
Australian Research Council
Funding Amount
$442,162.00
Summary
Nanoarchitectured platform technology for molecular profiling of exosomes. The aim of this project is to develop a set of cutting-edge nanotechnologies and a nanofabrication strategy to create a highly sensitive platform technology for exosome and exosomal miRNA analysis. This project aims to generate new knowledge in mesoporus nanomaterials and transudcer as well as exosome chemistry by developing nanostructure-based platform technology (device) for automated and rapid analysis. This project's ....Nanoarchitectured platform technology for molecular profiling of exosomes. The aim of this project is to develop a set of cutting-edge nanotechnologies and a nanofabrication strategy to create a highly sensitive platform technology for exosome and exosomal miRNA analysis. This project aims to generate new knowledge in mesoporus nanomaterials and transudcer as well as exosome chemistry by developing nanostructure-based platform technology (device) for automated and rapid analysis. This project's findings are expected to provide Australia with cutting-edge expertise for developing a next-generation platform technology for analysing exosomes and other relevant biomolecules, with the potential to deliver valuable intellectual property of commercial interest and economic benefit through technological advancements.Read moreRead less