Hydrogen fuel cells with non-precious metal cathode catalysts. Low-cost and robust fuel cell technology is a cornerstone towards the success of the hydrogen economy. The project aims to address the cost and durability of hydrogen fuel cells by advancing low-cost electrocatalysts for oxygen reduction reactions. Novel non-precious catalysts will be developed, and their stability understood in fuel cells using a new approach with in situ current mapping and X-ray computed tomography. The expected ....Hydrogen fuel cells with non-precious metal cathode catalysts. Low-cost and robust fuel cell technology is a cornerstone towards the success of the hydrogen economy. The project aims to address the cost and durability of hydrogen fuel cells by advancing low-cost electrocatalysts for oxygen reduction reactions. Novel non-precious catalysts will be developed, and their stability understood in fuel cells using a new approach with in situ current mapping and X-ray computed tomography. The expected outcomes of this project include material development, improved characterisation techniques and new knowledge on electrocatalysis. The project will benefit Kohodo Hydrogen Energy by positioning them as an Australian leader in low-cost catalysts, and to Australian industries in developing the hydrogen economy. Read moreRead less
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
A new in-situ structural measurement capability during nanoindentation. A new in-situ structural measurement capability during nanoindentation. This project aims to develop an in-situ Raman capability to obtain dynamic structural and mechanical behaviour of materials as a function of pressure during nanoindentation; and apply the new capability to directly monitor phase changes in silicon and germanium under pressure and correlate them with the simultaneous electrical responses. Anticipated outc ....A new in-situ structural measurement capability during nanoindentation. A new in-situ structural measurement capability during nanoindentation. This project aims to develop an in-situ Raman capability to obtain dynamic structural and mechanical behaviour of materials as a function of pressure during nanoindentation; and apply the new capability to directly monitor phase changes in silicon and germanium under pressure and correlate them with the simultaneous electrical responses. Anticipated outcomes are new instrumentation to directly probe the pressure-temperature phase diagram, and measure electrical properties of novel end phases in these semiconductors.Read moreRead less