Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100003
Funder
Australian Research Council
Funding Amount
$318,900.00
Summary
Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 ....Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 GHz. The capabilities are essential for development of two-dimensional materials, active components, waveguides, and antennas towards a common goal of efficient integrated terahertz devices and systems. The project will serve emerging terahertz applications including standoff imaging and short-range high-speed data transmission. This will have broad impact in the areas of surveillance, biomedicine, security, and public safety and well-being.Read moreRead less
Engineering high-efficiency all-dielectric antennas for terahertz channels. This project aims to create unconventional antenna platforms to support terahertz links. The project expects to deliver high-efficiency, high-gain dielectric resonator antennas and dielectric rod antenna arrays fed by dielectric wave-guides. The expected outcomes of this project will build critical components for future terahertz communication infrastructure. These antennas will support demands in point-to-point wireless ....Engineering high-efficiency all-dielectric antennas for terahertz channels. This project aims to create unconventional antenna platforms to support terahertz links. The project expects to deliver high-efficiency, high-gain dielectric resonator antennas and dielectric rod antenna arrays fed by dielectric wave-guides. The expected outcomes of this project will build critical components for future terahertz communication infrastructure. These antennas will support demands in point-to-point wireless transmission between mobile base stations, within data centres, and at information kiosks.Read moreRead less
Coding for Distributed Storage: Fundamental Limits and Code Designs. Applications such as file sharing, large-scale scientific projects, and social networking are fuelling the need for reliable and sustainable distributed storage systems. This project aims to develop the theory and the code designs for next-generation storage systems that are specifically optimised for the storage needs in such applications. This project is well placed to provide cost-effective, home-grown solutions for Australi ....Coding for Distributed Storage: Fundamental Limits and Code Designs. Applications such as file sharing, large-scale scientific projects, and social networking are fuelling the need for reliable and sustainable distributed storage systems. This project aims to develop the theory and the code designs for next-generation storage systems that are specifically optimised for the storage needs in such applications. This project is well placed to provide cost-effective, home-grown solutions for Australia's future data centre needs. Its potential immediate benefits are: contribution to the knowledge base and fundamental capabilities in storage systems; practical codes tailor-made for different storage applications; IP creation and commercialisation; and, education of future Australian academic and industrial innovators.Read moreRead less
An advanced framework for multi-agent strategic interactions. Communication security protocols and computer algorithms are expressible in terms of strategic interactions between competing agents, which can be analyzed in a game theory setting. This project will exploit the recent advances in extending this game theory framework to multidimensional spaces, thereby strengthening the theoretical foundations. This will provide new insights into the working of algorithms, potentially improving futur ....An advanced framework for multi-agent strategic interactions. Communication security protocols and computer algorithms are expressible in terms of strategic interactions between competing agents, which can be analyzed in a game theory setting. This project will exploit the recent advances in extending this game theory framework to multidimensional spaces, thereby strengthening the theoretical foundations. This will provide new insights into the working of algorithms, potentially improving future secure key distribution. Multi-agent interactions in higher dimensional spaces are considered intractable using traditional matrix methods and this project will build on our exciting new breakthrough showing that such interactions are tractable using geometric multivectors.Read moreRead less
Transmission beyond linear capacity in fibre optics. This project aims to develop the concept and demonstrate the practicality of a new fibre optic communication technology that allows data transmission rates beyond currently accepted fundamental limits. This project aims to design and demonstrate the feasibility and practicality of utilising nonlinear modes of data transmission. This would assist in the management of fibre impairments that fundamentally limit further increase in data rate causi ....Transmission beyond linear capacity in fibre optics. This project aims to develop the concept and demonstrate the practicality of a new fibre optic communication technology that allows data transmission rates beyond currently accepted fundamental limits. This project aims to design and demonstrate the feasibility and practicality of utilising nonlinear modes of data transmission. This would assist in the management of fibre impairments that fundamentally limit further increase in data rate causing the capacity crunch problem. This is expected to present Australia with leading edge technology to compete in the area of high-speed, high-capacity communication, which is the backbone of our economy, heath, education, social participation, and security.Read moreRead less
Catalysts for hydrogen-free ammonia production by electrochemical method. This project aims to realise the next generation of ammonia production under ambient conditions without hydrogen feedstock. Through a combination of theoretical molecular-level understanding and experimental materials engineering, a range of catalysts will be developed under a materials discovery scheme for electrochemical nitrogen reduction to ammonia. These new catalysts, featuring high activity, efficiency, selectivity, ....Catalysts for hydrogen-free ammonia production by electrochemical method. This project aims to realise the next generation of ammonia production under ambient conditions without hydrogen feedstock. Through a combination of theoretical molecular-level understanding and experimental materials engineering, a range of catalysts will be developed under a materials discovery scheme for electrochemical nitrogen reduction to ammonia. These new catalysts, featuring high activity, efficiency, selectivity, and stability, will facilitate an alternative artificial nitrogen fixation technology powered by renewable energies. This technology will enable the production of green fertilisers and provide renewable energy storage, which are key environmental and energy challenges that Australia and the world currently face.Read moreRead less
Develop Catalyst Materials for Future Fuels by Operando Computation. This project aims to design catalyst materials for the production of future fuels (green ammonia, hydrocarbon and alcohol). Using carbon and nitrogen as energy carriers, these fuels are generated from renewable sources such as wind or solar; they are safe, reliable, and possess high energy density. The outcomes include advance in computational electrochemistry to the Opeando level, electrocatalysts design principles with clearl ....Develop Catalyst Materials for Future Fuels by Operando Computation. This project aims to design catalyst materials for the production of future fuels (green ammonia, hydrocarbon and alcohol). Using carbon and nitrogen as energy carriers, these fuels are generated from renewable sources such as wind or solar; they are safe, reliable, and possess high energy density. The outcomes include advance in computational electrochemistry to the Opeando level, electrocatalysts design principles with clearly articulated reaction mechanisms, and candidate materials for experimental validation. Facilitated by advanced computation techniques and reliable catalyst materials design procedure, this project will address the biggest challenge in future fuel generation, which is the lack of efficient catalyst materials. Read moreRead less
Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify a ....Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify and build 2D hybrids are technically challenging and slow. Expected outcomes include defining a new paradigm for efficient identification and synthesis of 2D hybrids with exotic, bespoke properties. The generation of a large database of materials for researchers/industry would be of wide benefit.Read moreRead less
Reconfigurable polymer antennas. This research will utilise conductive polymers, or 'synthetic metals', as flexible and smart materials for radio-frequency antennas technology. The created antenna prototypes will find applications in biomedical devices (for example, for wearable devices and implants), for tagging (identification), and in reconfigurable antennas for wireless communication.