Biomimetic Design and Fabrication of Smart Dry Adhesives. Gecko footpads have unique structures with amazing features; imitating these fine bio-structures will lead to a multitude of innovations. This project aims to study fundamental principles governing adhesion phenomena for creating entirely new biomimetic nanomaterials with tunable adhesion, self-cleaning and controlled release capabilities. The gecko-mimicking materials and the associated dynamic effects will be characterized quantitativel ....Biomimetic Design and Fabrication of Smart Dry Adhesives. Gecko footpads have unique structures with amazing features; imitating these fine bio-structures will lead to a multitude of innovations. This project aims to study fundamental principles governing adhesion phenomena for creating entirely new biomimetic nanomaterials with tunable adhesion, self-cleaning and controlled release capabilities. The gecko-mimicking materials and the associated dynamic effects will be characterized quantitatively at multiscales and the nanoscale phenomena will be linked to macroscopic performance. The results of this research should provide a fundamental understanding of tunable adhesion mechanisms for the design and development of optimized materials with superb performance of practical significance.
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Discovery Early Career Researcher Award - Grant ID: DE160100071
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Light-bending strategies of next generation scalable plasmonic devices. This project will focus on a goal of engineering novel plasmonic metamaterials for manipulating light at the nanoscale. In particular, it will employ curved anodized alumina templates as well as 3D hybrid structures to explore light bending and strong resonances at the visible spectral range. Plasmonic metamaterials offer a unique ability to control subwavelength light propagation, for achieving unprecedented sensing sensiti ....Light-bending strategies of next generation scalable plasmonic devices. This project will focus on a goal of engineering novel plasmonic metamaterials for manipulating light at the nanoscale. In particular, it will employ curved anodized alumina templates as well as 3D hybrid structures to explore light bending and strong resonances at the visible spectral range. Plasmonic metamaterials offer a unique ability to control subwavelength light propagation, for achieving unprecedented sensing sensitivities and emerging nanophotonics phenomena. However, fabrication challenges and high losses hamper their application in the visible spectral range. Engineering these plasmonic structures in a scalable manner should strengthen Australia’s economy, lead to new industrial companies in the emerging field of plasmonics, attract international investments and create job opportunities.Read moreRead less
Quantum Nanophotonics with Atomically Thin Materials . This project aims to deliver new hardware for scalable integrated quantum photonics based on fluorescent defects in hexagonal boron nitride. The project will generate new knowledge in advanced manufacturing of two-dimensional systems, to pivot towards engineering of new optical qubits. Expected outcomes include a solid-state platform for on-chip quantum technologies and development of sovereign quantum capabilities. The results will constitu ....Quantum Nanophotonics with Atomically Thin Materials . This project aims to deliver new hardware for scalable integrated quantum photonics based on fluorescent defects in hexagonal boron nitride. The project will generate new knowledge in advanced manufacturing of two-dimensional systems, to pivot towards engineering of new optical qubits. Expected outcomes include a solid-state platform for on-chip quantum technologies and development of sovereign quantum capabilities. The results will constitute an important step towards implementation of secure communications and quantum information protocols. Benefits include advances in emerging manufacturing capabilities, training of young Australians, generation of intellectual property and securing major economic benefits to all Australians.Read moreRead less