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Anion receptors with high selectivity in aqueous environments. This project aims to develop neutral anion receptors that can bind to anions such as chloride and sulphate both selectively and strongly in water and transport them across membranes. These receptors have uses in the environment and medicine. Available receptors are limited to organic solvents or cannot discriminate between anions. This project will design hydrogen bonding motifs and incorporate them into water-soluble macrocycles tai ....Anion receptors with high selectivity in aqueous environments. This project aims to develop neutral anion receptors that can bind to anions such as chloride and sulphate both selectively and strongly in water and transport them across membranes. These receptors have uses in the environment and medicine. Available receptors are limited to organic solvents or cannot discriminate between anions. This project will design hydrogen bonding motifs and incorporate them into water-soluble macrocycles tailored to complement the size and shape of target anions. This project will provide innovative technologies for the detection of anionic species in areas including environmental (e.g. monitoring of sulphate levels in wastewater) and biomedical applications (e.g. detection of chloride concentrations in blood).Read moreRead less
New synthetic receptors for selective recognition and sensing of biologically important anions. Anions play roles in almost every biochemical process, so the ability to selectively detect specific anions has numerous applications. This project will design and synthesise molecules capable of detecting target anions under physiological conditions. This will provide innovative small molecule receptors for use in biomedicine.
Novel Synthetic Receptors for Recognition and Transport of Biologically Important Anions. Anion receptors are not currently tailored for the ‘real world’ biological environments (for example, physiological saline and membranes) in which anions perform their many critical roles. The project will design and synthesise a range of molecular receptors based on large, rigid, precisely functionalisable scaffolds, tailored specifically to complement both the shape, size and charge of target anions as we ....Novel Synthetic Receptors for Recognition and Transport of Biologically Important Anions. Anion receptors are not currently tailored for the ‘real world’ biological environments (for example, physiological saline and membranes) in which anions perform their many critical roles. The project will design and synthesise a range of molecular receptors based on large, rigid, precisely functionalisable scaffolds, tailored specifically to complement both the shape, size and charge of target anions as well as their native environment. The project will investigate the ability of these receptors to strongly bind their target anions with high selectivity in both aqueous systems and in membrane environments. This will lead to the development of innovative synthetic receptors that recognise and/or transport biological anions for use in biomedical applications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100186
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Base stabilised dicarbon as a new building block for supramolecular organometallic chemistry. Diamond, coal and graphite are the forms of carbon ("allotropes") found in everyday life. The discovery of two further allotropes of carbon, the fullerenes and graphene both led to Nobel Prize awards. We have identified a method to stabilize another form of carbon, dicarbon, and will harness its properties for the formation of new materials.
Functional polymeric nanopores from cyclic peptide templates. This research programme will develop nanotubes prepared through the self-assembly of cyclic peptide/polymer conjugates into functional devices for applications as nanopores. The project will establish the fundamental knowledge required to develop these materials into nanoporous polymeric films and transmembrane channels. The research programme will establish new synthetic routes to the conjugates, ascertain the technique of assembly i ....Functional polymeric nanopores from cyclic peptide templates. This research programme will develop nanotubes prepared through the self-assembly of cyclic peptide/polymer conjugates into functional devices for applications as nanopores. The project will establish the fundamental knowledge required to develop these materials into nanoporous polymeric films and transmembrane channels. The research programme will establish new synthetic routes to the conjugates, ascertain the technique of assembly into nanotubes, with a particular focus on improving the precision with which we achieve structural control, and explore the use of the nanotubes to design nanopores, for applications in the manufacture of nanoporous materials, as antibiotic agents and as biosensors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100148
Funder
Australian Research Council
Funding Amount
$1,350,000.00
Summary
Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior res ....Advanced Nuclear Magnetic Resonance Technologies for Southeast Queensland. This project aims to establish an advanced Nuclear Magnetic Resonance capability and capacity at two of Queenslands' leading research intensive universities. The project expects to enhance the scope and productivity of hundreds of research projects spanning natural products, synthetic, medicinal, materials and environmental science. Expected outcomes include smarter science, more productive collaborations and superior research training, leading to innovative solutions to challenging problems that confront science and society. This investment should provide significant benefits in the form of new knowledge across multiple disciplines, informing the design of future medicines, agrochemicals, materials and other products.
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Permanent Concentration Gradients Captured in Molecular and Framework Co-Crystals. This project aims to design, synthesise and characterise molecular and framework co-crystals in which the molecular components are arranged in permanent concentration gradients. Synthetic crystals of this type are unprecedented. The concentration gradient has significant implications for the physical properties of the crystals (for example, optical, magnetic and electronic) as these must also vary in concert with ....Permanent Concentration Gradients Captured in Molecular and Framework Co-Crystals. This project aims to design, synthesise and characterise molecular and framework co-crystals in which the molecular components are arranged in permanent concentration gradients. Synthetic crystals of this type are unprecedented. The concentration gradient has significant implications for the physical properties of the crystals (for example, optical, magnetic and electronic) as these must also vary in concert with the changing local molecular composition. These co-crystals promise unique magnetic and optical properties that will influence design of new smart solid-state materials with potential for use in future high-technology applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100087
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Regional Facility for Molecular Characterisation and Mapping. Researchers at the Schools of Chemistry at The Australian National University and University of Wollongong are involved in a range of projects where new molecules are synthesised or discovered in natural products such as rainforest plants and marine organisms. Some of the molecules have already shown promise against diseases such as Alzheimer's and cardiovascular disease. In order to fully characterise these molecules, two complementa ....Regional Facility for Molecular Characterisation and Mapping. Researchers at the Schools of Chemistry at The Australian National University and University of Wollongong are involved in a range of projects where new molecules are synthesised or discovered in natural products such as rainforest plants and marine organisms. Some of the molecules have already shown promise against diseases such as Alzheimer's and cardiovascular disease. In order to fully characterise these molecules, two complementary mass spectrometers, replacing ageing instrumentation will be commissioned at each site. In addition, researchers in Wollongong will acquire a MALDI mass spectrometer capable of imaging the distribution of molecules on tissues that may be pathologically important.Read moreRead less
Selective anion transporters with therapeutic potential. This project aims to develop compounds that can selectively facilitate the transport of anions such as chloride or bicarbonate across lipid bilayer membranes. Current generations of transporters have been shown to be un-selective, transporting protons, hydroxide or fatty acid head groups along with the anion of interest. New strategies will be developed to construct selective transporters including using encapsulating binding sites and d ....Selective anion transporters with therapeutic potential. This project aims to develop compounds that can selectively facilitate the transport of anions such as chloride or bicarbonate across lipid bilayer membranes. Current generations of transporters have been shown to be un-selective, transporting protons, hydroxide or fatty acid head groups along with the anion of interest. New strategies will be developed to construct selective transporters including using encapsulating binding sites and dynamic covalent approaches to binding to produce selective systems. These transporters have potential future application as electrophysiological tools to study lipid bilayer transport processes.Read moreRead less
Creating custom microenvironments for anion complexation in water. This proposal will exploit a new strategy in the design of anion receptors that function in water by employing the microenvironment formed in aggregates of these molecules. The outcome of the project will be a series of new materials designed to selective bind particular anions, a deeper understanding of how to design novel anion-selective materials and control the assembly of these systems. The materials will have potential us ....Creating custom microenvironments for anion complexation in water. This proposal will exploit a new strategy in the design of anion receptors that function in water by employing the microenvironment formed in aggregates of these molecules. The outcome of the project will be a series of new materials designed to selective bind particular anions, a deeper understanding of how to design novel anion-selective materials and control the assembly of these systems. The materials will have potential uses in processes where the removal of particular anions is required. Potential applications include desalination, radioactive waste remediation, corrosion-resistant coatings and removal of anions during dialysis processes.Read moreRead less