A Midas touch for electrophiles in new reaction development. This project aims to address the lack of knowledge about how high-value organic molecules are formed in gold-catalysed reactions by advancing a novel mode of catalysis. This project expects to generate new knowledge about these gold-catalysed reactions using an innovative, interdisciplinary approach incorporating computational and synthetic techniques. Expected outcomes of this project include the optimisation and development of import ....A Midas touch for electrophiles in new reaction development. This project aims to address the lack of knowledge about how high-value organic molecules are formed in gold-catalysed reactions by advancing a novel mode of catalysis. This project expects to generate new knowledge about these gold-catalysed reactions using an innovative, interdisciplinary approach incorporating computational and synthetic techniques. Expected outcomes of this project include the optimisation and development of important organic reactions and enhancing collaboration nationally and internationally between computational and synthetic chemists. This should provide significant benefits in the form of improved chemical reactions for chemists to prepare new pharmaceuticals, agrochemicals and materials.Read moreRead less
Nanostructured solid acid catalysts for sustainable chemical manufacturing. This project aims to develop next-generation solid acid catalysts for energy- and atom-efficient transformations of waste biomass and carbon dioxide to sustainable chemicals and fuels. Catalysis is a transformative technology, key to both life and lifestyle, contributing to 90% of chemical manufacturing processes and >20% of all industrial products, and will be a key enabler for the emerging Australian bioeconomy. The ex ....Nanostructured solid acid catalysts for sustainable chemical manufacturing. This project aims to develop next-generation solid acid catalysts for energy- and atom-efficient transformations of waste biomass and carbon dioxide to sustainable chemicals and fuels. Catalysis is a transformative technology, key to both life and lifestyle, contributing to 90% of chemical manufacturing processes and >20% of all industrial products, and will be a key enabler for the emerging Australian bioeconomy. The expected development of new high performance catalysts for the production of renewable transportation fuels and sustainable chemical feedstocks will underpin commercially viable low carbon technologies using waste resources, and should provide significant benefits to Australian science, industry, and the environment.
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Accurate gas-surface chemistry from first principles. Many aspects of gas-surface chemistry remain unexplained, despite around 90% of industrial chemical production relying on heterogeneous catalysis. A major problem is that common simulation methods used to study gas-surface chemistry do not adequately incorporate the effect of the motion of the atoms in the solid catalyst surface, preventing accurate study of surface temperature and vibrational energy transfer effects. This project aims to de ....Accurate gas-surface chemistry from first principles. Many aspects of gas-surface chemistry remain unexplained, despite around 90% of industrial chemical production relying on heterogeneous catalysis. A major problem is that common simulation methods used to study gas-surface chemistry do not adequately incorporate the effect of the motion of the atoms in the solid catalyst surface, preventing accurate study of surface temperature and vibrational energy transfer effects. This project aims to develop methods to incorporate surface atom motion in realistic atomistic simulations of gas-surface interactions. The unexplained physics and chemistry of industrially-important catalysis will be investigated. A better understanding of the physics and chemistry of molecules reacting on catalytic surfaces has the potential to allow for improved industrial production, new functional coatings on materials and, for example, enhanced engineering of corrosion resistance.Read moreRead less