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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
New mechanisms and methods in carbene and nitrene chemistry. Carbenes and nitrenes are highly reactive intermediates of theoretical and mechanistic significance and synthetic versatility in organic chemistry. In spite of high reactivity, selective and high-yielding reactions can be performed, leading to products that may be difficult or impossible to synthesise by other methods. They have practical applications in photo-affinity labelling of biomolecules, and photolithography. This project will ....New mechanisms and methods in carbene and nitrene chemistry. Carbenes and nitrenes are highly reactive intermediates of theoretical and mechanistic significance and synthetic versatility in organic chemistry. In spite of high reactivity, selective and high-yielding reactions can be performed, leading to products that may be difficult or impossible to synthesise by other methods. They have practical applications in photo-affinity labelling of biomolecules, and photolithography. This project will contribute fundamental knowledge of the nature and reactions of these species by using direct spectroscopic observation. We are proposing the occurrence of novel types of reactions and the formation of several new reactive intermediates as well as a technique for the stabilization of reactive intermediates by incorporation into macrocyclic frameworks.Read moreRead less
Environmentally sustainable asymmetric synthesis: design and development of chiral hydrogen bonding organocatalysts. There is a pressing need for more environmentally sustainable and economically viable methods for asymmetric synthesis. This project aims to design, synthesise and evaluate new organocatalysts based on the principle of hydrogen bonding activation, a common feature of Nature's catalysts, enzymes. These inexpensive, non-toxic, air- and moisture-stable catalysts may prove to be more ....Environmentally sustainable asymmetric synthesis: design and development of chiral hydrogen bonding organocatalysts. There is a pressing need for more environmentally sustainable and economically viable methods for asymmetric synthesis. This project aims to design, synthesise and evaluate new organocatalysts based on the principle of hydrogen bonding activation, a common feature of Nature's catalysts, enzymes. These inexpensive, non-toxic, air- and moisture-stable catalysts may prove to be more efficient, selective and have broader applicability than catalysts based on transition metals. The growing Australian pharmaceutical and biotechnology industries will benefit from the development of these new Advanced Materials and the training provided to young scientists in the sought-after fields of asymmetric synthesis and catalysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989946
Funder
Australian Research Council
Funding Amount
$357,000.00
Summary
High Resolution LC/MS and MALDI for Molecular and Macromolecular Characterisation. The provision of high-resolution and matrix assisted laser desorption ionisation mass spectrometers configured for the molecular and macromolecular research of high quality research groups will lead to earlier and better fundamental discoveries that are directed at important practical developments in medicine, biotechnology, nanotechnology, light-energy harvesting, polymer materials and sensors. These include anti ....High Resolution LC/MS and MALDI for Molecular and Macromolecular Characterisation. The provision of high-resolution and matrix assisted laser desorption ionisation mass spectrometers configured for the molecular and macromolecular research of high quality research groups will lead to earlier and better fundamental discoveries that are directed at important practical developments in medicine, biotechnology, nanotechnology, light-energy harvesting, polymer materials and sensors. These include anticancer agents, nanodevices for drug delivery, better polymers with more energy efficient industrial processes, bioactive molecules for industrially important nitrogen fixation and many more. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100049
Funder
Australian Research Council
Funding Amount
$270,000.00
Summary
Nuclear Magnetic Resonance facility for Northern Australia. Nuclear magnetic resonance facility for Northern Australia: Nuclear magnetic resonance spectroscopy is a fundamentally and critically important technique in the characterisation of organic, inorganic and biological compounds. Research areas that will be supported by this facility include organometallic chemistry and the development of new materials and analytical sensors; organic photochemistry as applied in synthesis and degradation; a ....Nuclear Magnetic Resonance facility for Northern Australia. Nuclear magnetic resonance facility for Northern Australia: Nuclear magnetic resonance spectroscopy is a fundamentally and critically important technique in the characterisation of organic, inorganic and biological compounds. Research areas that will be supported by this facility include organometallic chemistry and the development of new materials and analytical sensors; organic photochemistry as applied in synthesis and degradation; and natural products, pharmaceutical, and inorganic chemistry, where multinuclear nuclear magnetic resonance is most important and applicable in drug design, development and delivery.Read moreRead less
Australian Marine Biodiversity As A Source Of New Drugs To Control Neurodegenerative Disease. With the aging of Australia's population the impact of neurodegenerative diseases such as Alzheimer's and Parkinson's is rapidly on the rise. There is an urgent need to develop new and better drugs to treat the symptoms and underlying cause of these debilitating diseases. Historically, the majority of the world's pharmaceuticals have been drawn from biodiversity (ie plants, microbes and animals). As one ....Australian Marine Biodiversity As A Source Of New Drugs To Control Neurodegenerative Disease. With the aging of Australia's population the impact of neurodegenerative diseases such as Alzheimer's and Parkinson's is rapidly on the rise. There is an urgent need to develop new and better drugs to treat the symptoms and underlying cause of these debilitating diseases. Historically, the majority of the world's pharmaceuticals have been drawn from biodiversity (ie plants, microbes and animals). As one of the few megabiodiverse nations, Australia is ideally positioned to accelerate and focus the search for drugs from nature. This project will explore an exceptionally promising pool of Australian biodiversity, its marine ecosystems, as a source of inspiration for the development of new drugs to treat neurodegenerative diseases. Read moreRead less
New vistas in porphyrin chemistry via metal-catalyzed couplings with hydrazine derivatives. This project will address basic scientific questions and develop new substances for use in molecular electronics and cancer therapy. We will make and study entirely new molecules derived from porphyrins, which in Nature have vital roles in photosynthesis, oxygen transport and enzyme catalysis. This breakthrough research will reveal knowledge vital to the advancement of fundamental chemical science and als ....New vistas in porphyrin chemistry via metal-catalyzed couplings with hydrazine derivatives. This project will address basic scientific questions and develop new substances for use in molecular electronics and cancer therapy. We will make and study entirely new molecules derived from porphyrins, which in Nature have vital roles in photosynthesis, oxygen transport and enzyme catalysis. This breakthrough research will reveal knowledge vital to the advancement of fundamental chemical science and also offer excellent training in cutting edge research for young Australian scientists. In addition, porphyrin-like substances are used in cancer diagnosis and treatment and have properties essential for the next generation of nanoelectronic devices, and this project is aimed at these eventual outcomes.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