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
A thermal battery for dish-Stirling concentrated solar power systems. This project will investigate new high temperature (> 600 degrees Celsius) metal hydrides and carbonates suitable for thermochemical energy storage in dish-Stirling Concentrated Solar Power systems. The intended outcome is to discover cost effective, energy dense materials that are capable of operating over a 30 year life span in a solar power plant. This will enable 24/7 electricity production from renewable sources in a disp ....A thermal battery for dish-Stirling concentrated solar power systems. This project will investigate new high temperature (> 600 degrees Celsius) metal hydrides and carbonates suitable for thermochemical energy storage in dish-Stirling Concentrated Solar Power systems. The intended outcome is to discover cost effective, energy dense materials that are capable of operating over a 30 year life span in a solar power plant. This will enable 24/7 electricity production from renewable sources in a dispatchable solar platform, ideal for remote locations. The successful development of high temperature metal hydrides and carbonates will finally provide an energy storage solution to dish-Stirling Concentrated Solar Power systems, which will greatly reduce our reliance on fossil fuels to produce electricity.Read moreRead less
Sodium borohydride for solid-state green hydrogen export. This project aims to develop a new method of producing, storing, and exporting green hydrogen using Australian resources. Sodium borohydride will be produced from borax using renewable energy and exported internationally to countries that desire hydrogen from renewable sources to replace fossil fuels. Green hydrogen will be released from sodium borohydride by adding water. The spent material will then be shipped back to Australia for recy ....Sodium borohydride for solid-state green hydrogen export. This project aims to develop a new method of producing, storing, and exporting green hydrogen using Australian resources. Sodium borohydride will be produced from borax using renewable energy and exported internationally to countries that desire hydrogen from renewable sources to replace fossil fuels. Green hydrogen will be released from sodium borohydride by adding water. The spent material will then be shipped back to Australia for recycling back to sodium borohydride, creating a closed-loop energy cycle using renewable energy. This will create a new export industry in Australia by expanding current mining expertise whilst harnessing our wealth of renewable energy to potentially deliver billions of dollars of revenue.Read moreRead less