Nucleophilic carbenes as organocatalysts for asymmetric synthesis. Chemical compounds which come in two chiral mirror images (enantiomers) can have very different biological function. Often one form can have beneficial effects while the other can cause great harm (such as birth defects in the case of thalidomide). It is therefore very important for the drug industry to have asymmetric chemical reactions that lead specifically to only one enantiomer. The asymmetric reactions in this project ha ....Nucleophilic carbenes as organocatalysts for asymmetric synthesis. Chemical compounds which come in two chiral mirror images (enantiomers) can have very different biological function. Often one form can have beneficial effects while the other can cause great harm (such as birth defects in the case of thalidomide). It is therefore very important for the drug industry to have asymmetric chemical reactions that lead specifically to only one enantiomer. The asymmetric reactions in this project have been used previously to synthesise the anti-cancer metabolite roseophilin. The results of this project will ensure that there are many more similar success stories in the pharmaceutical and biotechnology industries.Read moreRead less
Coinage metal nanoclusters: synthesis, structure and reactivity. Metal catalysts play important roles in the multi-billion dollar production of many industrial and fine chemicals used in wide-ranging applications including pharmaceuticals, insecticides and polymers. Despite the importance of metal catalysed reactions, the molecular details of such processes remain poorly understood. Breakthrough studies highlight that reactions previously thought to be catalysed by discrete metal catalysts are i ....Coinage metal nanoclusters: synthesis, structure and reactivity. Metal catalysts play important roles in the multi-billion dollar production of many industrial and fine chemicals used in wide-ranging applications including pharmaceuticals, insecticides and polymers. Despite the importance of metal catalysed reactions, the molecular details of such processes remain poorly understood. Breakthrough studies highlight that reactions previously thought to be catalysed by discrete metal catalysts are in fact catalysed by metal nanoclusters. This project involves the application of advanced mass spectrometric and computational methods to explore the formation and reactivity of copper, silver and gold nanoclusters. Identification of key reactive intermediates will inform the design of next generation catalysts.Read moreRead less
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
Switchable and stereocontrolled photoredox catalysis. This project aims to develop new catalytic synthetic reactions for the rapid and more direct functionalisation of organic compounds under mild conditions with the use of visible light. An integrated experimental and computational approach will be used to design potent visible-light photocatalysts that retain the advantages of standard photoredox catalysis but with the added ability to intercept and, thus control, reactive intermediates in sit ....Switchable and stereocontrolled photoredox catalysis. This project aims to develop new catalytic synthetic reactions for the rapid and more direct functionalisation of organic compounds under mild conditions with the use of visible light. An integrated experimental and computational approach will be used to design potent visible-light photocatalysts that retain the advantages of standard photoredox catalysis but with the added ability to intercept and, thus control, reactive intermediates in situ. This will enable the control of stereochemistry in photoredox reactions – not possible with standard catalysts - and establish other useful synthetic transformations. These strategies will make it easier to prepare valuable classes of organic molecules – efficiently, safely, and cost-effectively.
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A new route to linear alpha olefins - catalytic isomerisation of internal olefins. Linear alpha olefins are an extremely important class of chemical building blocks used for everyday consumer products, such as plastics, detergents and lubricants. This research aims to develop a new platform technology for the production of these materials from low cost precursors.
Biomimetic templating radical polymerisation in nanoreactors. The aim is to develop methodology for synthesis of polymer with hitherto inaccessible control of the microstructure by free radical means, that is the molecular weight distribution and monomer sequences. This will be achieved by combining the two concepts of biomimetic templated radical polymerisation and polymerisation in nanoreactors in the form of submicron-sized micelles or droplets. Scale-up of the methodology will be developed b ....Biomimetic templating radical polymerisation in nanoreactors. The aim is to develop methodology for synthesis of polymer with hitherto inaccessible control of the microstructure by free radical means, that is the molecular weight distribution and monomer sequences. This will be achieved by combining the two concepts of biomimetic templated radical polymerisation and polymerisation in nanoreactors in the form of submicron-sized micelles or droplets. Scale-up of the methodology will be developed based on an environmentally friendly approach whereby miniemulsions are generated using carbon dioxide. Increased ability to control the polymer microstructure will enable advanced design of functional polymers with far-reaching applications in materials science, nanotechnology and nanomedicine. Read moreRead less
Upgrading of light gas-to-liquid products to fuels and chemicals. The conversion of natural gas to liquid fuels (gasoline and diesel) is seen as an important alternative to crude oil refining in Australia, and a new industry based around this is likely to emerge in the coming years. This project aims to develop methods by which some of the less valuable by-products can be upgraded to fuels and chemicals.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100041
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
A new generation fast mapping Raman system. This fast-imaging Raman facility will give researchers at the University of Tasmania a new tool to rapidly analyse the chemical properties of a wide range of materials in a non destructive way. It will complement other instrumentation and support a diverse range of research areas addressing several national research priorities.