Preparation and properties of oligo- and polycyclophanes. Materials with advanced optical and electronic properties. This project aims to prepare a novel class of organic and organometallic material that has both theoretical and practical applications. Nanotechnology requires unique arrangements of atoms that can give rise to enhanced macroscopic properties and we have embarked on a project that will provide new oligomers and polymers for the construction of the next generation of optical and el ....Preparation and properties of oligo- and polycyclophanes. Materials with advanced optical and electronic properties. This project aims to prepare a novel class of organic and organometallic material that has both theoretical and practical applications. Nanotechnology requires unique arrangements of atoms that can give rise to enhanced macroscopic properties and we have embarked on a project that will provide new oligomers and polymers for the construction of the next generation of optical and electronic devices.Read moreRead less
Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop produ ....Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop production. Expected outcomes include new knowledge about the biodegradation of the polymer, new methods for deploying the polymer in oil spill cleanup, and new fertilisers that prevent nutrient waste and runoff. Significant benefits are expected for the environment, as well as economic benefits to the manufacturer and end-users.Read moreRead less
New synthetic strategies towards higher order fullerenes. Fullerene or C60 is a novel soccer-ball shaped molecule with many potential applications as new materials and pharmaceutical drugs. This project aims to develop novel methods for the preparation of new fullerene derivatives that will have potential future applications in materials science, medicinal/pharmaceutical chemistry and chemical synthesis.
Asymmetric Synthesis of Bioactive Alkaloids and Analogues via Chiral, Polylfunctionalized-Pyrrolidines. Alkaloids are plant products that have many useful biological and pharmaceutical properties. Many of these compounds have potential as antiviral and anticancer therapeutics. This project aims to develop novel methods of preparing bioactive alkaloids and their structural analogues. These compounds potentially have applications as new potent and less toxic pharmaceutical agents.
New technologies for e-waste recycling. This project aims to provide commercially viable methods for recycling electronic waste (e-waste), with a focus on plastic recycling and precious metal recovery from circuit boards. This project expects to generate new knowledge in the separation and recovery of gold, silver, and palladium using novel leach reagents and sorbents. Additionally, new techniques will be evaluated for converting e-waste plastic into construction materials. Expected outcomes of ....New technologies for e-waste recycling. This project aims to provide commercially viable methods for recycling electronic waste (e-waste), with a focus on plastic recycling and precious metal recovery from circuit boards. This project expects to generate new knowledge in the separation and recovery of gold, silver, and palladium using novel leach reagents and sorbents. Additionally, new techniques will be evaluated for converting e-waste plastic into construction materials. Expected outcomes of this project include new capabilities for Australia's e-waste recycling industry, as the majority of circuit board waste is shipped overseas. This should provide significant economic benefits such as the recovery of valuable metals and the development of novel construction materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100100
Funder
Australian Research Council
Funding Amount
$975,934.00
Summary
Multifunctional Platform for Chemical Manufacturing and Energy Materials. We aim to establish the first platform in Australia for the continuous production and in-situ characterisation of molecules and nanomaterials. This project expects to generate new knowledge in the area of functional materials using an interdisciplinary approach. The expected outcomes will be a unique analytical capability for rapid screening of synthetic and operational parameters, and unprecedented fundamental insight int ....Multifunctional Platform for Chemical Manufacturing and Energy Materials. We aim to establish the first platform in Australia for the continuous production and in-situ characterisation of molecules and nanomaterials. This project expects to generate new knowledge in the area of functional materials using an interdisciplinary approach. The expected outcomes will be a unique analytical capability for rapid screening of synthetic and operational parameters, and unprecedented fundamental insight into chemical reactions to inform the design and development of sustainable chemical processes. This proposal will provide significant benefits to cutting-edge research in catalysis, polymer engineering, separation science, CO2 capture and organic synthesis, to positively impact on the energy-manufacturing-environment nexus.Read moreRead less
A new molecular platform for catalytic synthesis of heterocycles. This project aims to address the lack of efficient methods to prepare cyclic molecules of biological relevance by utilising novel molecular platforms developed in our laboratories. This project expects to generate new cyclic molecules using these innovative molecular platforms by employing catalysts to reduce raw material and energy cost. The expected outcomes of this project include enhanced chemical technology to prepare cyclic ....A new molecular platform for catalytic synthesis of heterocycles. This project aims to address the lack of efficient methods to prepare cyclic molecules of biological relevance by utilising novel molecular platforms developed in our laboratories. This project expects to generate new cyclic molecules using these innovative molecular platforms by employing catalysts to reduce raw material and energy cost. The expected outcomes of this project include enhanced chemical technology to prepare cyclic molecules of pharmaceutical importance and the training of highly skilled PhD students. This should provide significant benefits, such as increased capacity for the development of new pharmaceuticals and advanced materials.Read moreRead less
Development of Pyrrolopyrimidines as Inhibitors of ATP-Binding Proteins. This project seeks to generate analogues of natural products that have been found to be active against cancer cells and tropical parasites. The new materials produced by this project will aid in the study of biochemical processes involved in diseases such as cancer and lymphatic filariasis, thus leading the way to development of these compounds as potential treatments for such diseases.
Sulfur Polymers: A New Class of Dynamic, Responsive & Recyclable Materials. This project aims to establish design principles for the manufacture of polymers made from sulfur, an abundant yet underused building block. These novel materials will be tested as next-generation rubber and plastic. This project expects to generate new knowledge in how these materials can be assembled and recycled, and also how they can be used to extract valuable gold from ore and e-waste. Anticipated outcomes of the p ....Sulfur Polymers: A New Class of Dynamic, Responsive & Recyclable Materials. This project aims to establish design principles for the manufacture of polymers made from sulfur, an abundant yet underused building block. These novel materials will be tested as next-generation rubber and plastic. This project expects to generate new knowledge in how these materials can be assembled and recycled, and also how they can be used to extract valuable gold from ore and e-waste. Anticipated outcomes of the project include access to entirely new materials useful in sustainable plastic manufacturing and sustainable gold extraction. These outcomes should provide significant benefits including functional replacements for non-recyclable plastics and elimination of toxic mercury and cyanide in gold mining and e-waste processing.Read moreRead less
New Discoveries in Organic Synthesis Inspired by the Efficiency of Nature. Nature can assemble complex organic molecules from simple starting materials with apparent ease, but the laboratory synthesis of these natural products is very difficult. This project aims to mimic the way in which Nature constructs organic compounds and thus develop more efficient, greener synthetic processes in which there is a rapid build up of molecular complexity via “biomimetic” reactions. We will integrate this app ....New Discoveries in Organic Synthesis Inspired by the Efficiency of Nature. Nature can assemble complex organic molecules from simple starting materials with apparent ease, but the laboratory synthesis of these natural products is very difficult. This project aims to mimic the way in which Nature constructs organic compounds and thus develop more efficient, greener synthetic processes in which there is a rapid build up of molecular complexity via “biomimetic” reactions. We will integrate this approach with modern methods of catalysis, including electrochemistry, photochemistry and biocatalysis. As a result, this work will expand the chemical space available to synthetic chemists working in the pharmaceutical industry. A further benefit is the training of the next generation of Australian synthetic chemists. Read moreRead less