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Reactivity Enhanced Low-Valent Alkaline Earth Metal Compounds. The project aims to develop highly activated low oxidation state alkaline earth metal complexes as cheap and sustainable alternatives to toxic/expensive late transition metal complexes, that currently dominate the transformation of inert small molecule substrates into value-added organic chemicals. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational approac ....Reactivity Enhanced Low-Valent Alkaline Earth Metal Compounds. The project aims to develop highly activated low oxidation state alkaline earth metal complexes as cheap and sustainable alternatives to toxic/expensive late transition metal complexes, that currently dominate the transformation of inert small molecule substrates into value-added organic chemicals. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational approaches, and a multidisciplinary collaborative team. Expected outcomes include building of academic and, later, industrial research capacity, knowledge, an international network, and a highly trained workforce. Success should see substantial economic, environmental and societal benefits flowing to Australia.Read moreRead less
Teaching Main Group Compounds to Activate Catalytically Relevant Bonds. The project aims to generate novel, earth abundant main group compounds, with the ultimate objective of developing these as sustainable replacements for toxic/expensive late transition metal complexes, that are currently central to numerous stoichiometric and catalytic synthetic transformations. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational a ....Teaching Main Group Compounds to Activate Catalytically Relevant Bonds. The project aims to generate novel, earth abundant main group compounds, with the ultimate objective of developing these as sustainable replacements for toxic/expensive late transition metal complexes, that are currently central to numerous stoichiometric and catalytic synthetic transformations. The project expects to generate major fundamental and applied advances in chemistry, using innovative synthetic and computational approaches, and a multidisciplinary collaborative team. Expected outcomes include building of academic and, later, industrial research capacity, knowledge, an international research network, and a highly trained workforce. Success should see substantial economic, environmental and societal benefits flowing to Australia.Read moreRead less
Renewable solar hydrogen generated from waste streams. Sunlight is the largest available carbon-neutral energy source, with enough energy striking the planet in one hour to satisfy our current requirements for about a year. With the novel catalysts designed in this project, we will use this energy to simultaneously generate hydrogen and destroy organic pollutants by oxidation.
Towards Next Generation Anthelmintics. The agricultural industry is in urgent need of new, safe and cost effective treatments for parasite infections in commercial livestock (sheep, cattle, goats). The current multi billion dollar agrochemical industry provides only three classes of antiparasitic drug, all of which are >25 yrs old and are largely ineffective due to the widespread resistance. This project will advance the development of a new class of antiparasitic treatment, improving outcomes f ....Towards Next Generation Anthelmintics. The agricultural industry is in urgent need of new, safe and cost effective treatments for parasite infections in commercial livestock (sheep, cattle, goats). The current multi billion dollar agrochemical industry provides only three classes of antiparasitic drug, all of which are >25 yrs old and are largely ineffective due to the widespread resistance. This project will advance the development of a new class of antiparasitic treatment, improving outcomes for Australian farmers by reducing reliance on expensive ineffective agrochemical imports, reducing chemical load on the environment, improving pastures and increasing yields. In short, improved livestock health will lead to more sustainable and productive farming, and a stronger economy.Read moreRead less
Adding hydride punch to transition metal complexes for CO2 electroreduction. This project plans to apply an innovative methodology to the selective conversion of carbon dioxide (CO2) waste into useful C1 chemicals. The new inorganic chemistry approach is based on the invention of transition metal–organic hydride coordination complexes, which are designed to punch hydride ion (= a proton and two electrons) into metal-activated CO2-derived intermediates. The approach should naturally overcome the ....Adding hydride punch to transition metal complexes for CO2 electroreduction. This project plans to apply an innovative methodology to the selective conversion of carbon dioxide (CO2) waste into useful C1 chemicals. The new inorganic chemistry approach is based on the invention of transition metal–organic hydride coordination complexes, which are designed to punch hydride ion (= a proton and two electrons) into metal-activated CO2-derived intermediates. The approach should naturally overcome the two-electron barrier found for today's best transition metal electrocatalysts of CO2 reduction and, hence, enable the selective production of formaldehyde, a four-electron reduction product and bulk industrial feedstock chemical, or methanol, a six-electron reduction product and future transport fuel.Read moreRead less
Biomimetic ligands for catalytic iron-mediated degradation of contaminants. This project aims to develop and apply ligands attached to solid supports that bind iron and which, on activation, form high valence state iron species capable of catalytically oxidising contaminants present in waters and wastewaters. Of particular interest in this work are ligands that are simple analogues of biological molecules and which are stable in the presence of the high valent iron species formed following activ ....Biomimetic ligands for catalytic iron-mediated degradation of contaminants. This project aims to develop and apply ligands attached to solid supports that bind iron and which, on activation, form high valence state iron species capable of catalytically oxidising contaminants present in waters and wastewaters. Of particular interest in this work are ligands that are simple analogues of biological molecules and which are stable in the presence of the high valent iron species formed following activation. The end result of this project is a water treatment process suited to the effective removal of trace contaminants such as hormones, pharmaceuticals and pesticides from wastewaters such that the treated waters are suitable for discharge to pristine environments or to reuse for potable purposes.Read moreRead less
Metal Directed Assembly of New Discrete and Framework Supramolecular Systems. An important aspect of this project is the development of strategies for assembling molecules and metals into larger units - leading to novel compounds and materials for which unusual and potentially useful properties can be anticipated. These may include materials that act as catalysts for chemical reactions or absorb and store gases (such as hydrogen for use as a fuel). More generally, the area is one that will under ....Metal Directed Assembly of New Discrete and Framework Supramolecular Systems. An important aspect of this project is the development of strategies for assembling molecules and metals into larger units - leading to novel compounds and materials for which unusual and potentially useful properties can be anticipated. These may include materials that act as catalysts for chemical reactions or absorb and store gases (such as hydrogen for use as a fuel). More generally, the area is one that will underpin the 'bottom-up' approach (building tiny components from individual molecules and ions) in the rapidly expanding field of nanotechnology. Clearly, if Australia is to remain internationally competitive in such new technologies then an understanding of processes of the type outlined in this proposal will be essential.Read moreRead less
Metal Directed Assembly of New Supramolecular Systems. An important aspect of this project is the development of strategies for assembling molecules and metals into larger units - leading to novel compounds and materials for which unusual and potentially useful properties can be anticipated. These may include materials that act as catalysts for chemical reactions or absorb and store gases (such as hydrogen for use as a fuel). More generally, the area is one that will underpin the 'bottom-up' ap ....Metal Directed Assembly of New Supramolecular Systems. An important aspect of this project is the development of strategies for assembling molecules and metals into larger units - leading to novel compounds and materials for which unusual and potentially useful properties can be anticipated. These may include materials that act as catalysts for chemical reactions or absorb and store gases (such as hydrogen for use as a fuel). More generally, the area is one that will underpin the 'bottom-up' approach (building tiny components from individual molecules and ions) in the rapidly expanding field of nanotechnology. Clearly, if Australia is to remain internationally competitive in such new technologies then an understanding of processes of the type outlined in this proposal will be essential.Read moreRead less
Nanoscale Molecular Architectures - New Metallo Cages and Capsules. The design and synthesis of novel cage and capsule-like supermolecular structures will be undertaken, including rare examples of two large cage types - one designed to incorporate two adjacent metal ions in an extended (chiral) cavity while the other utilises macrocyclic metal complexes as the 'walls' of the cage. In the latter case metal variation makes possible the alteration of the electronic environment of a guest occupying ....Nanoscale Molecular Architectures - New Metallo Cages and Capsules. The design and synthesis of novel cage and capsule-like supermolecular structures will be undertaken, including rare examples of two large cage types - one designed to incorporate two adjacent metal ions in an extended (chiral) cavity while the other utilises macrocyclic metal complexes as the 'walls' of the cage. In the latter case metal variation makes possible the alteration of the electronic environment of a guest occupying the central cavity . A third (capsule-like) system is designed to 'open' and 'close' under pH control. The present studies hold promise for underpinning the future development of nano-scale molecular devices.
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Metal Directed Assembly of New Supramolecular Systems. This project is concerned with the use of designed metal-ion directed assembly for the construction of new supramolecular entities incorporating metal complexes as structural elements. A range of novel nanometre-scale architectures is planned, including supramolecular ellipses, squares, cubes and mechanically linked systems. The proposed research has implications for elucidating fundamental aspects of both supramolecular and metal complexati ....Metal Directed Assembly of New Supramolecular Systems. This project is concerned with the use of designed metal-ion directed assembly for the construction of new supramolecular entities incorporating metal complexes as structural elements. A range of novel nanometre-scale architectures is planned, including supramolecular ellipses, squares, cubes and mechanically linked systems. The proposed research has implications for elucidating fundamental aspects of both supramolecular and metal complexation behaviour. It also holds promise for the production of novel materials for which unusual and potentially useful properties can be anticipated.Read moreRead less