Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce th ....Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce the colour fading problems, and hence add value to the fledgling nano-tech (as well as traditional textile) industries in Australia. It could enable local production of a specialised textile finishing agent for export to major textile producers in South East Asia.Read moreRead less
Three-Dimensional Polymer Fibre Scaffolds with Functional Nano-structured Surface. The Partner Organisation to this research, CyGenics Ltd, is a world leader in cell biotechnology. A key challenge faced by the CyGenics and other biotech companies is the provision of tissue scaffolding materials that have the right three-dimensional macroscopic structure plus a suitable nano-structured surface micro-environment, similar to the natural extracellular matrix. This joint project combines expertise in ....Three-Dimensional Polymer Fibre Scaffolds with Functional Nano-structured Surface. The Partner Organisation to this research, CyGenics Ltd, is a world leader in cell biotechnology. A key challenge faced by the CyGenics and other biotech companies is the provision of tissue scaffolding materials that have the right three-dimensional macroscopic structure plus a suitable nano-structured surface micro-environment, similar to the natural extracellular matrix. This joint project combines expertise in polymer fibres, surface engineering and cell culture to tackle the key challenge. The outcome will help position the local polymer fibre and cell culture industries at the forefront of tissue scaffolding materials research and development. Read moreRead less
Field-Enhanced Electrospinning for Fine and Uniform Nanofibres. This project will result in a new platform technology to produce very fine and uniform nanofibres that can be used in a range of advanced applications. It will further strengthen our leading position in the field of nanofibre technology, and contribute to the National Research Priority area of Frontier Technologies for Building and Transforming Australian Industries. Australia already has niche expertise in nanomaterials. This proje ....Field-Enhanced Electrospinning for Fine and Uniform Nanofibres. This project will result in a new platform technology to produce very fine and uniform nanofibres that can be used in a range of advanced applications. It will further strengthen our leading position in the field of nanofibre technology, and contribute to the National Research Priority area of Frontier Technologies for Building and Transforming Australian Industries. Australia already has niche expertise in nanomaterials. This project will significantly enhance our international standing in the field. There is a growing list of local companies that are interested in exploring the production and application of nanofibrous materials also.Read moreRead less
Spinning Nanosheets for Versatile Applications. This project seeks to develop a highly versatile and innovative fibre spinning research platform for fabricating multifunctional hybrid fibres with unprecedented mechanical, electrical and electrochemical properties. The novel fibres to be produced can be assembled into macroscale architectures or be weaved into functional textiles that can feed into relevant technologies and Australian industries such as advanced textiles for wearable energy stora ....Spinning Nanosheets for Versatile Applications. This project seeks to develop a highly versatile and innovative fibre spinning research platform for fabricating multifunctional hybrid fibres with unprecedented mechanical, electrical and electrochemical properties. The novel fibres to be produced can be assembled into macroscale architectures or be weaved into functional textiles that can feed into relevant technologies and Australian industries such as advanced textiles for wearable energy storage and conversion, microelectrodes and sensors, and smart medical/biomedical platforms. More importantly, this project will have far reaching implications across a range of research disciplines, and ultimately sectors critical to Australia’s health, social, and economic future.Read moreRead less