Controllable Synthesis of Defects in Catalysts for Electrocatalysis . This project aims to address the most critical issue of electrocatalysis: identification of active sites for carbon-based metal free catalysts (CMFCs). Through the development of new methodologies, this proposal will, for the first time, controllably synthesise the vacancy defects that are the major active sites for CMFCs. The expected outcomes from this project include in-depth understanding of the fundamentals of electrocata ....Controllable Synthesis of Defects in Catalysts for Electrocatalysis . This project aims to address the most critical issue of electrocatalysis: identification of active sites for carbon-based metal free catalysts (CMFCs). Through the development of new methodologies, this proposal will, for the first time, controllably synthesise the vacancy defects that are the major active sites for CMFCs. The expected outcomes from this project include in-depth understanding of the fundamentals of electrocatalysis: the reactivity of active sites and the catalytic performance with the number of active sites; which will not only significantly advance knowledge but also achieve breakthrough technologies that greatly benefit to the society and economy both for Australia and worldwide.Read moreRead less
Energy from microalgae: industrial scale development and downstream processing of co-products. In this project Australian researchers will develop processes to produce renewable energy and commodity chemicals from microalgae grown in open saline ponds, enabling sustainable production of commercial quantities of clean biofuels and commodity products for the future. Renewable energy is an essential part of Australia's low greenhouse gas emissions energy target and is central to energy security. Th ....Energy from microalgae: industrial scale development and downstream processing of co-products. In this project Australian researchers will develop processes to produce renewable energy and commodity chemicals from microalgae grown in open saline ponds, enabling sustainable production of commercial quantities of clean biofuels and commodity products for the future. Renewable energy is an essential part of Australia's low greenhouse gas emissions energy target and is central to energy security. The development of microalgal energy will help Australia's determination to meet its Kyoto target. Additional benefits will include the development of value-added co-products from microalgal biomass, which is one route to commercial success of the novel technology.Read moreRead less