Optical fibre photoreactor for removing airborne molecular contaminants and volatile organic carbons for semiconductor fabrication and fuel cell applications. The collaboration integrates concepts from photocatalysis, optical fibre technology and filtration, to solve important issues in the semiconductor fabrication and fuel cell industries. The project will place Australia amongst the world-leaders in novel integrated photocatalytic/filtration techniques and provide significant opportunities fo ....Optical fibre photoreactor for removing airborne molecular contaminants and volatile organic carbons for semiconductor fabrication and fuel cell applications. The collaboration integrates concepts from photocatalysis, optical fibre technology and filtration, to solve important issues in the semiconductor fabrication and fuel cell industries. The project will place Australia amongst the world-leaders in novel integrated photocatalytic/filtration techniques and provide significant opportunities for penetration, in particular, into the US filtration market. The collaboration will afford young Australian-based researchers the opportunity to access technology, expertise and knowledge developed in the US, which is currently unavailable in Australia. It will strengthen ties between UNSW and UMN and provide opportunities for further collaboration.Read moreRead less
Pulsed Laser Deposition of Zinc Oxide-based Materials for Optoelectronic Device Applications. Zinc oxide (ZnO) is expected to play an important role in new optoelectronic components and systems such as visible and ultraviolet light sources, high temperature electronics and window materials for solar cells. This project will not only investigate the fundamental issues related to the growth of ZnO but also develop some solutions to realise the true potentials of ZnO-based materials. This project i ....Pulsed Laser Deposition of Zinc Oxide-based Materials for Optoelectronic Device Applications. Zinc oxide (ZnO) is expected to play an important role in new optoelectronic components and systems such as visible and ultraviolet light sources, high temperature electronics and window materials for solar cells. This project will not only investigate the fundamental issues related to the growth of ZnO but also develop some solutions to realise the true potentials of ZnO-based materials. This project is at the forefront of a number of important fields, and therefore the outcomes are expected to appeal to a large community of academics, national security and the high technology industries. It will position the Australian researchers among the pioneering groups in this area.Read moreRead less
Uncertain Systems Theory applied to Nonlinear Robust Control and Filtering. Feedback control systems are becoming increasingly important in manufacturing industry, the automotive industry, defence applications as well as in many non-industrial applications such as the management of the environment or the economy. By developing new techniques for the design of high performance robust nonlinear controllers and filters which are widely applicable in industrial applications, this project will help m ....Uncertain Systems Theory applied to Nonlinear Robust Control and Filtering. Feedback control systems are becoming increasingly important in manufacturing industry, the automotive industry, defence applications as well as in many non-industrial applications such as the management of the environment or the economy. By developing new techniques for the design of high performance robust nonlinear controllers and filters which are widely applicable in industrial applications, this project will help make existing industrial technologies more efficient and make new industrial technologies feasible. Moreover, the research training carried out in the project will add to available a pool of experts in the areas of robust nonlinear control and filtering. Read moreRead less
Underlying mechanisms of e-waste bioleaching and hydropyrolysis. The project will develop a reclamation technology with an ecologically sustainable solution to e-waste management. Focusing on printed circuit boards, we will use our novel bioleaching and hydropyrolysis methods to process e-wastes, recover base and precious metals and reclaim energy. This will create safe working methods, high recycling efficiencies and generation of products from e-wastes.