2D Multiferroics: From Materials Design to Device Conceptualization. This project aims to design new transistors with high efficiency and low energy costing for the storage applications based on two-dimensional multifunctional heterostructures. Extensive computational simulations and joint experiments will be employed to develop fundamental knowledge essential to understanding the phenomena of magnetoelectric coupling, which is used to guide rational device design and implementation. The designe ....2D Multiferroics: From Materials Design to Device Conceptualization. This project aims to design new transistors with high efficiency and low energy costing for the storage applications based on two-dimensional multifunctional heterostructures. Extensive computational simulations and joint experiments will be employed to develop fundamental knowledge essential to understanding the phenomena of magnetoelectric coupling, which is used to guide rational device design and implementation. The designed magnetoelectric heterostructures and the multiferroic devices are expected to provide strong foundations for technological innovations resulting in devices with superior functionality and efficiency. The outcome of the project will significantly benefit high-tech electronics.Read moreRead less
Advanced refractory alloy components for aerospace and energy sectors. This project aims to employ state-of-the-art alloy modelling and a new additive manufacturing approach to fabricate advanced alloy components with superior high temperature and chemical properties. Components will be manufactured from both existing and completely new alloys. Expected outcomes include stronger and more damage resistant high temperature parts for high-speed aerospace vehicles, and more stable corrosion resistan ....Advanced refractory alloy components for aerospace and energy sectors. This project aims to employ state-of-the-art alloy modelling and a new additive manufacturing approach to fabricate advanced alloy components with superior high temperature and chemical properties. Components will be manufactured from both existing and completely new alloys. Expected outcomes include stronger and more damage resistant high temperature parts for high-speed aerospace vehicles, and more stable corrosion resistant alloys for application in molten salts. The project expects to increase our sovereign capabilities in advanced alloy component manufacture, for the benefit of sectors including high-velocity aerospace, defence and molten salt-based energy storage and power generation.Read moreRead less
Sustainable Electrocatalytic Synthesis of Urea. Urea is a critical chemical for agriculture, the chemical industry and pollution control, yet current production methods are unsustainable. This project aims to design high-efficiency catalysts for electrochemical urea synthesis from theoretical studies. This project expects to generate new knowledge of chemistry and catalysis from new reaction mechanisms and materials. Expected outcomes include optimum catalysts with high conversion efficiency and ....Sustainable Electrocatalytic Synthesis of Urea. Urea is a critical chemical for agriculture, the chemical industry and pollution control, yet current production methods are unsustainable. This project aims to design high-efficiency catalysts for electrochemical urea synthesis from theoretical studies. This project expects to generate new knowledge of chemistry and catalysis from new reaction mechanisms and materials. Expected outcomes include optimum catalysts with high conversion efficiency and reactant selectivity. The novel catalysts have the potential to deliver improved catalytic performance and controllable reaction reactants. This could deliver significant benefits to the crop production increase, cost reduction of chemical industry, and environmental pollution reduction.Read moreRead less