Low cost solution-processable 2D nanomaterials for smart windows. This project aims to develop low cost and scalable synthesis of the active functional nanomaterials in smart windows, their facile application techniques, and their integration into the glass manufacturing process. Smart windows, with thermochromic and electrochromic functionalities, will play important roles towards efficient energy usage and conservation (in terms of air-conditioning and lighting) in most buildings including off ....Low cost solution-processable 2D nanomaterials for smart windows. This project aims to develop low cost and scalable synthesis of the active functional nanomaterials in smart windows, their facile application techniques, and their integration into the glass manufacturing process. Smart windows, with thermochromic and electrochromic functionalities, will play important roles towards efficient energy usage and conservation (in terms of air-conditioning and lighting) in most buildings including offices, schools, and residential homes. . The intended outcome of this project is to facilitate the commercialisation of low-cost, energy-saving smart windows for efficient energy usage and conservation, which is an integral part of a sustainable environment.Read moreRead less
Bulk Metallic Glasses and Their Applications. Bulk Metallic Glasses (BMG) represent a significant breakthrough in amorphous metallic materials research and opens up an enormous potential for BMG as engineering materials. However, currently there is no effective way to select optimum composition. The project will bring Australia together with two leading international research groups to develop a computer model for BMG alloy design and to further optimise BMG production processes. BMG engineering ....Bulk Metallic Glasses and Their Applications. Bulk Metallic Glasses (BMG) represent a significant breakthrough in amorphous metallic materials research and opens up an enormous potential for BMG as engineering materials. However, currently there is no effective way to select optimum composition. The project will bring Australia together with two leading international research groups to develop a computer model for BMG alloy design and to further optimise BMG production processes. BMG engineering components will be produced. The project provides Australian researchers access to leading expertise and specialized facilities which will rapidly bring us to the highest level. It represents Australia's first involvement in this significant material innovation. Read moreRead less
2D heterostructures with ultrafast interlayer transport for energy devices. This project aims to design novel 2D heterostructures with ultrafast interlayer transport properties and to modulate the associated optical, electric, catalytic, surface and storage properties by using a combination of experimental and computational approaches for sustainable energy applications, such as fuel generation and energy conversion and storage devices. This project expects to generate new knowledge in materials ....2D heterostructures with ultrafast interlayer transport for energy devices. This project aims to design novel 2D heterostructures with ultrafast interlayer transport properties and to modulate the associated optical, electric, catalytic, surface and storage properties by using a combination of experimental and computational approaches for sustainable energy applications, such as fuel generation and energy conversion and storage devices. This project expects to generate new knowledge in materials science and nanotechnology and make fundamental breakthroughs in new sustainable energy technologies. The outcomes of this project will facilitate the development of novel materials and low-cost sustainable energy in Australia with access to an enormous global market. Read moreRead less
Bio-inspired two-dimensional nanomaterials for sustainable applications. This project aims to design multifunctional nanomaterials in the form of two-dimensional (2D) structures or architectures with targeted extraordinary bio-mimicking functions for sustainable development and energy applications by learning the best from nature. Millions of years of evolution and natural selection have turned the biological world into an effective materials-development laboratory. The project expects to enhanc ....Bio-inspired two-dimensional nanomaterials for sustainable applications. This project aims to design multifunctional nanomaterials in the form of two-dimensional (2D) structures or architectures with targeted extraordinary bio-mimicking functions for sustainable development and energy applications by learning the best from nature. Millions of years of evolution and natural selection have turned the biological world into an effective materials-development laboratory. The project expects to enhance research and innovation in materials science, nanotechnology, and biological science, and lead to advances in the chemical industry and sustainable environmental and energy applications in Australia. Read moreRead less
Cost effective carbon fibres from polyethylene for lightweight applications. This project aims to deliver cost-effective, high-performance carbon fibres from polyethylene through the use of novel catalysts and advanced processing techniques. Carbon fibre-reinforced composites are extremely strong and light fibre-reinforced polymers that are commonly used wherever high strength-to-weight ratio and rigidity are required, such as in aerospace, automotive and civil engineering applications. However, ....Cost effective carbon fibres from polyethylene for lightweight applications. This project aims to deliver cost-effective, high-performance carbon fibres from polyethylene through the use of novel catalysts and advanced processing techniques. Carbon fibre-reinforced composites are extremely strong and light fibre-reinforced polymers that are commonly used wherever high strength-to-weight ratio and rigidity are required, such as in aerospace, automotive and civil engineering applications. However, broader market uptake is currently limited by carbon fibre costs. The project aims to deliver high-quality fibre with real potential to capture a share of the $14-billion carbon fibre composite market.Read moreRead less