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New Horizons in Diels-Alder Chemistry. Using a unique joint experimental-computational approach, we will develop reliable ways to predict the outcome of one of the most important chemical reactions. Practical applications of these new predictive tools will be developed involving powerful new versions of the reaction. Several different classes of biologically active natural products will be prepared including molecules with antitumor and antiretroviral activities. Libraries of structurally-relate ....New Horizons in Diels-Alder Chemistry. Using a unique joint experimental-computational approach, we will develop reliable ways to predict the outcome of one of the most important chemical reactions. Practical applications of these new predictive tools will be developed involving powerful new versions of the reaction. Several different classes of biologically active natural products will be prepared including molecules with antitumor and antiretroviral activities. Libraries of structurally-related analogues of natural compounds will be synthesised for biological evaluation.Read moreRead less
Atmospheric Free-Radicals: Exploring the Role of Nitrate Radicals in the Oxidative Damage of Bio-Surfaces. This project falls within the National Research Priority 2 (Promoting and Maintaining Good Health) as identified by the ARC, specifically Priority Goal 2 (Ageing well, ageing productively) and Priority Goal 3 (Preventive healthcare). The study will lead to a better understanding of environmental factors influencing health and welfare of Australians every age and will provide unique opport ....Atmospheric Free-Radicals: Exploring the Role of Nitrate Radicals in the Oxidative Damage of Bio-Surfaces. This project falls within the National Research Priority 2 (Promoting and Maintaining Good Health) as identified by the ARC, specifically Priority Goal 2 (Ageing well, ageing productively) and Priority Goal 3 (Preventive healthcare). The study will lead to a better understanding of environmental factors influencing health and welfare of Australians every age and will provide unique opportunities for students to be trained in cutting-edge basic research. Knowledge and fundamental understanding of the damage of bio-surfaces caused by atmospheric free-radical oxidants and their potential role in ageing processes will help to develop novel medical strategies, which substantially contribute to the quality of Australian sciences.Read moreRead less
Bimolecular chemistry at very low temperatures. Many chemical reactions involve short-lived and highly reactive intermediates that cannot be observed under ordinary reaction conditions. Hence, much of this chemistry is shrouded in mystery. This project aims to develop the ability to observe and monitor such reactions directly using a combination of spectroscopies at very low temperatures, where the molecules are more stable and reactions slower. These studies will give quantitative information ....Bimolecular chemistry at very low temperatures. Many chemical reactions involve short-lived and highly reactive intermediates that cannot be observed under ordinary reaction conditions. Hence, much of this chemistry is shrouded in mystery. This project aims to develop the ability to observe and monitor such reactions directly using a combination of spectroscopies at very low temperatures, where the molecules are more stable and reactions slower. These studies will give quantitative information on the nature of the reactive intermediates themselves, the nature of the products formed, and the reaction dynamics, and they are of fundamental importance for an understanding of chemical reactivity generally. The methodology developed will be applicable to the investigation of a wide range of processes.Read moreRead less
Reactive intermediates and microwave-assisted organic reactions. The use of our chemistry to help develop new, safer, better drugs against schizophrenia is a strong driving force for this research. This relates to the National Research Priority of promoting and maintaining good health, ageing well and productively, and preventative healthcare. Microwave-assisted chemical synthesis will undoubtedly become a very important methodology in the pharmaceutical industry, and our work will help develop ....Reactive intermediates and microwave-assisted organic reactions. The use of our chemistry to help develop new, safer, better drugs against schizophrenia is a strong driving force for this research. This relates to the National Research Priority of promoting and maintaining good health, ageing well and productively, and preventative healthcare. Microwave-assisted chemical synthesis will undoubtedly become a very important methodology in the pharmaceutical industry, and our work will help developing such know-how in Australia and thereby contribute to the Australian economic fabric. Read moreRead less
New insights into free radical reactivity via gas phase studies of radical anions. Free radicals are known to be critical reactive intermediates in chemical processes ranging from the formation of photochemical smog, through combustion to the onset of age-related diseases. This research increases our understanding of how free radicals react and will thus allow for more accurate prediction, and in some instances greater control, of the outcomes of chemical reactions and their health and environme ....New insights into free radical reactivity via gas phase studies of radical anions. Free radicals are known to be critical reactive intermediates in chemical processes ranging from the formation of photochemical smog, through combustion to the onset of age-related diseases. This research increases our understanding of how free radicals react and will thus allow for more accurate prediction, and in some instances greater control, of the outcomes of chemical reactions and their health and environmental consequences. New instrumental technologies will be developed and young Australian researchers will be trained here, and with collaborators in the USA, in state-of-the-art techniques (particularly in mass spectrometry) that are essential to our emerging technology-based economy.Read moreRead less
A new approach to the generation of long-lived charge-separated states in rigid Donor-Bridge-Acceptor systems. Electron transfer and energy transfer are ubiquitous in nature and they provide the key to the design of energy transducing materials. Considerable effort is being expended into studying light-induced electron transfer which leads to the formation of a charge-separated state or molecular "battery". To be useful, these batteries should have lifetimes at least in the microsecond domain ....A new approach to the generation of long-lived charge-separated states in rigid Donor-Bridge-Acceptor systems. Electron transfer and energy transfer are ubiquitous in nature and they provide the key to the design of energy transducing materials. Considerable effort is being expended into studying light-induced electron transfer which leads to the formation of a charge-separated state or molecular "battery". To be useful, these batteries should have lifetimes at least in the microsecond domain and this is not easily achieved in practice. This project will explore a new, elegant, and promising approach to the efficient generation of very long-lived charge-separated states in rigid systems, which is based on triplet sensitisation.
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Gas Phase Studies to Catalyze a Better Understanding of Metal Reactivity. The proposed research will increase knowledge of fundamental questions related to the mechanisms of catalysis and metal ion reactivity. The insights gained will be an important addition to the knowledge base of our culture, both nationally and in the wider international context. We note that research into the behaviour and design of catalysts is a burgeoning field which reflects the great importance of this area in the int ....Gas Phase Studies to Catalyze a Better Understanding of Metal Reactivity. The proposed research will increase knowledge of fundamental questions related to the mechanisms of catalysis and metal ion reactivity. The insights gained will be an important addition to the knowledge base of our culture, both nationally and in the wider international context. We note that research into the behaviour and design of catalysts is a burgeoning field which reflects the great importance of this area in the international scientific community. Our proposal will add to fundamental knowledge and may also result in practical applications. More importantly, we will train and equip talented young people with a spectrum of skills which will make them well placed to meet the demand for highly skilled professional scientists.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561203
Funder
Australian Research Council
Funding Amount
$110,000.00
Summary
Microwave Assisted Chemistry - new approaches to molecular diversity. This project will support the establishment of a multi-user, fully automated microwave reactor facility that will be the first of its kind in an academic laboratory in Australia. The equipment will support a wide range of synthetic chemistry research by providing microwave acceleration to otherwise slow reactions and in some cases promotion of reactions that do not normally proceed under conventional conditions. The automation ....Microwave Assisted Chemistry - new approaches to molecular diversity. This project will support the establishment of a multi-user, fully automated microwave reactor facility that will be the first of its kind in an academic laboratory in Australia. The equipment will support a wide range of synthetic chemistry research by providing microwave acceleration to otherwise slow reactions and in some cases promotion of reactions that do not normally proceed under conventional conditions. The automation capability will be used to create diverse compound libraries and to investigate and optimise reaction conditions.Read moreRead less
Understanding Electron Transfer through Surface Bound Rigid Molecular Constructs: From Fundamental Studies to New Sensing and Photovoltaic Applications. Electron transfer is not only a vital process in biological systems but is the cornerstone of the new generation of nanoscale devices such as molecular electronics, photovoltaic devices and biosensors. For most applications electron transfer occurs close to a surface but the influence of the surface is not well understood. This project aims ....Understanding Electron Transfer through Surface Bound Rigid Molecular Constructs: From Fundamental Studies to New Sensing and Photovoltaic Applications. Electron transfer is not only a vital process in biological systems but is the cornerstone of the new generation of nanoscale devices such as molecular electronics, photovoltaic devices and biosensors. For most applications electron transfer occurs close to a surface but the influence of the surface is not well understood. This project aims to increase our understanding of the role of surfaces on the electron transfer behaviour using a novel range of rigid 'molecular wires'. The knowledge gained will be exploited in the development of novel biosensors for environmental and health monitoring and new highly efficient solar cells for energy conversion.Read moreRead less
Free Radicals in Chemistry and Biology: A Computational Quantum Chemistry Investigation. This proposal aims to carry out state-of-the-art chemistry research using computers rather than traditional laboratory techniques. Free radicals, which have widespread importance in the multibillion dollar polymer and health industries, form the centrepiece of the proposal. These are highly reactive substances that are difficult to study by conventional experimental techniques but ideal to study using compu ....Free Radicals in Chemistry and Biology: A Computational Quantum Chemistry Investigation. This proposal aims to carry out state-of-the-art chemistry research using computers rather than traditional laboratory techniques. Free radicals, which have widespread importance in the multibillion dollar polymer and health industries, form the centrepiece of the proposal. These are highly reactive substances that are difficult to study by conventional experimental techniques but ideal to study using computers. The increased understanding of free radicals that will stem from this research may help in dealing with ageing, and afflictions such as hardening of the arteries and vitamin B12 deficiency. It will also result in the training at the highest level of new generations of chemists in this exciting field of "chemistry with computers".Read moreRead less