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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Metal Complexes for Activation and Scission of Small, Multiply-Bonded Molecules. The immediate outcome of this work is a series of new metal complexes capable of selectively cleaving the strong bonds present in a number of small molecules of industrial and synthetic importance. These outcomes will have a significant impact on the development of both novel transition metal systems for synthetic chemistry and new industrial procedures for the activation and cleavage of multiply-bonded molecules su ....Metal Complexes for Activation and Scission of Small, Multiply-Bonded Molecules. The immediate outcome of this work is a series of new metal complexes capable of selectively cleaving the strong bonds present in a number of small molecules of industrial and synthetic importance. These outcomes will have a significant impact on the development of both novel transition metal systems for synthetic chemistry and new industrial procedures for the activation and cleavage of multiply-bonded molecules such as molecular nitrogen and carbon dioxide. They will lead to new consumer products, better methods of production, and potential downstream applications such as nitric oxide/nitrogen dioxide converters and carbon dioxide emission controls.Read moreRead less
Activation and Scission of Small Molecules using Three-Coordinate Metal Complexes. Chemists have long admired the ease with which such fundamental molecules as nitrogen, oxygen and carbon dioxide are processed in biological systems under mild conditions in contrast to existing industrial processes such as nitrogen 'fixation' which require drastic temperatures and pressures. Our project addresses this inbalance by using powerful computational methods to design highly-tuned chemical systems based ....Activation and Scission of Small Molecules using Three-Coordinate Metal Complexes. Chemists have long admired the ease with which such fundamental molecules as nitrogen, oxygen and carbon dioxide are processed in biological systems under mild conditions in contrast to existing industrial processes such as nitrogen 'fixation' which require drastic temperatures and pressures. Our project addresses this inbalance by using powerful computational methods to design highly-tuned chemical systems based on three-coordinate metal complexes which are specific for the activation and scission of important small molecules possessing multiple bonds.Read moreRead less
Metal Complexes for Activation and Scission of Small, Multiply-Bonded Molecules. The immediate outcome of this work is a series of metal complexes capable of selectively cleaving the strong bonds present in a number of small molecules of chemical importance. This will have a significant impact on industry by providing cheaper and safer alternatives to currently expensive and hazardous processes for producing nitrogen and phosphorus containing compounds esential to the chemical and agricultural i ....Metal Complexes for Activation and Scission of Small, Multiply-Bonded Molecules. The immediate outcome of this work is a series of metal complexes capable of selectively cleaving the strong bonds present in a number of small molecules of chemical importance. This will have a significant impact on industry by providing cheaper and safer alternatives to currently expensive and hazardous processes for producing nitrogen and phosphorus containing compounds esential to the chemical and agricultural industries. It will also greatly benefit the chemical community by providing novel routes to constructing metal complexes with unusual and exotic ligands. These outcomes will lead to new consumer products and potential downstream applications such as nitric oxide/nitrogen dioxide converters and carbon dioxide emission controls.Read moreRead less
Quantum-chemical design of stereoregular polyphosphines for nanowires. In this project we will be designing and producing stereoregular polyphosphines that can self-assemble gold and silver complexes that mimic the molecular architectures of DNA and certain proteins. The longer gold complexes will behave as insulated nanowires, and are an exciting prospect for the development of nanotechnological devices. The shorter silver and gold complexes are expected to have significant antitumour propertie ....Quantum-chemical design of stereoregular polyphosphines for nanowires. In this project we will be designing and producing stereoregular polyphosphines that can self-assemble gold and silver complexes that mimic the molecular architectures of DNA and certain proteins. The longer gold complexes will behave as insulated nanowires, and are an exciting prospect for the development of nanotechnological devices. The shorter silver and gold complexes are expected to have significant antitumour properties. This project, which will use a unique theoretical-experimental approach to design the stereoregular polyphosphines, will enhance Australia's international scientific reputation, and will contribute to technological advancement in the national priority areas of nanotechnology and biotechnology.Read moreRead less
Metal complexes for activation and scission of small, multiply-bonded molecules. The outcome of this work is a series of metal complexes capable of cleaving the strong bonds in a number of small molecules of chemical importance. This will have a significant impact on industry by providing cheaper and safer alternatives to currently expensive and hazardous processes for producing nitrogen and phosphorus containing compounds.
Supramolecular Rip-n-Sew - New Computational Tools for Modelling Supermolecules. This project will develop new computational tools for predicting the chemical behaviour of large molecular and supramolecular systems with an accuracy and efficiency that has not previously been possible. It will also increase our mechanistic understanding of the principles governing supramolecular assembly in chemical and biological systems. This will enable cost and time savings in the design of advanced material ....Supramolecular Rip-n-Sew - New Computational Tools for Modelling Supermolecules. This project will develop new computational tools for predicting the chemical behaviour of large molecular and supramolecular systems with an accuracy and efficiency that has not previously been possible. It will also increase our mechanistic understanding of the principles governing supramolecular assembly in chemical and biological systems. This will enable cost and time savings in the design of advanced materials in the medical and agricultural contexts.Read moreRead less
Computer-Aided Design of Agents for Controlling Free-Radical Polymerisation. This project will provide cutting-edge fundamental research of importance to free-radical polymerisation. This process is the basis of a multi-billion dollar industry worldwide, and is very important to the Australian economy. The project will help to expand the applicability of the reversible addition fragmentation chain transfer (RAFT) polymerisation process, which is a significant new CSIRO-invented method for contro ....Computer-Aided Design of Agents for Controlling Free-Radical Polymerisation. This project will provide cutting-edge fundamental research of importance to free-radical polymerisation. This process is the basis of a multi-billion dollar industry worldwide, and is very important to the Australian economy. The project will help to expand the applicability of the reversible addition fragmentation chain transfer (RAFT) polymerisation process, which is a significant new CSIRO-invented method for controlling free-radical polymerisation. In doing this, the project will facilitate the design and development of a range of new polymer products, with applications in biotechnology and nanotechnology. This research will help to keep Australia at the forefront of this important field.Read moreRead less
Use of Interval Arithmetic and GRID Computing in Computational Molecular Science: Bounding Errors and Locating Global Minima. Catastrophic failure of the Ariane 5 rocket in 1996 and the inability of Patriot missile systems to reach their targets during the 1991 Gulf war were both attributed to numerical computing errors. Less dramatic, but in a similar vein, this project aims to study the numerical stability of contemporary computational molecular science applications. The focus will be on linea ....Use of Interval Arithmetic and GRID Computing in Computational Molecular Science: Bounding Errors and Locating Global Minima. Catastrophic failure of the Ariane 5 rocket in 1996 and the inability of Patriot missile systems to reach their targets during the 1991 Gulf war were both attributed to numerical computing errors. Less dramatic, but in a similar vein, this project aims to study the numerical stability of contemporary computational molecular science applications. The focus will be on linear scaling electronic structure codes, methods that are critical to the study of nano- and bio-materials, and are therefore of great importance to our economic future and medical well being. The project will build expertise within Australia in the area of interval arithmetic, an area that is currently poorly represented.Read moreRead less
Electron correlation models using morph operators and hybrid intracules. A new solution to the central problem in quantum chemistry will allow researchers in the chemical, pharmaceutical and materials sciences to predict the chemical behaviour of moderately large molecular systems with an accuracy and efficiency that has not previously been possible. The software that will result will enable cost and time savings in the design of advanced materials in the medical and agricultural contexts.