Data sharing with strong privacy against inference attacks. This project aims to develop theories and techniques for strong protection of personal information in sharing large datasets such as national health data or census records. It intends to achieve this through developing new information theoretic methods for synthesising datasets with proven high fidelity and protection against re-identification and inference attacks, where attackers try to learn probability of sensitive data. The expecte ....Data sharing with strong privacy against inference attacks. This project aims to develop theories and techniques for strong protection of personal information in sharing large datasets such as national health data or census records. It intends to achieve this through developing new information theoretic methods for synthesising datasets with proven high fidelity and protection against re-identification and inference attacks, where attackers try to learn probability of sensitive data. The expected outcomes are algorithms for public and private sector data curators to dial up or down their data access arrangements based on privacy risks and fidelity demands linked with different data types and uses. This project intends to enable Australians to securely benefit from valuable data in decision making.Read moreRead less
Time to shine for constrained peptides as next-generation pharmaceuticals. Current methods for the screening and generation of peptide and protein drugs are laborious, expensive and often incompatible with the biological systems used in pharmaceutical industries. Leveraging recent advancements in chemistry and molecular biology, this project aims to improve the design, synthesis and screening of peptide-based pharmaceuticals. Key research outcomes are innovative biocompatible chemical transforma ....Time to shine for constrained peptides as next-generation pharmaceuticals. Current methods for the screening and generation of peptide and protein drugs are laborious, expensive and often incompatible with the biological systems used in pharmaceutical industries. Leveraging recent advancements in chemistry and molecular biology, this project aims to improve the design, synthesis and screening of peptide-based pharmaceuticals. Key research outcomes are innovative biocompatible chemical transformations for the screening of large peptide libraries, to unleash the revolutionary potential of constrained peptides in drug development. Expected benefits are reliable and cost-effective technologies for the rapid production of biologically active molecules for future targeted use in human and agricultural pharmaceuticals.Read moreRead less
Complementary pairs for next generation self-assembled systems . This project will employ a set of complementary pairings where separate sites fit together at metal ions in a specific fashion orthogonal to other pairings, like two jigsaw pieces, while forming a poor fit with other pairings. These pairings will allow retention and transfer of structural information. In this way, the bulk combination of relatively simple precursors will lead to self-assembled structures with well-defined seque ....Complementary pairs for next generation self-assembled systems . This project will employ a set of complementary pairings where separate sites fit together at metal ions in a specific fashion orthogonal to other pairings, like two jigsaw pieces, while forming a poor fit with other pairings. These pairings will allow retention and transfer of structural information. In this way, the bulk combination of relatively simple precursors will lead to self-assembled structures with well-defined sequence identity. This program will make and use complex abiotic molecules, enhancing outcomes in molecular information storage and transfer, molecular recognition and sensing, chemical transformations, and energy transport events, leading to economic and environmental benefits for Australia in industry and manufacturing.Read moreRead less
Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within ....Engineered materials for future energy technologies. The development of new technologies to be applied in fuel generation, energy conversion and environmental remediation will have wide national and international impact. The cross-disciplinary and cross-institution research program proposed will draw on expertise within Australia and in Europe for the fabrication of materials for next generation energy devices. In the future, there is the potential that these materials could be fabricated within Australia and therefore lead to employment nationally, and income generated through the export of advanced catalysts, solar cells and sequestration materials.Read moreRead less
Deep-sea carbonate cycles and their role in glacial-interglacial atmospheric CO2 changes. The causes for past atmospheric carbon dioxide (CO2) changes and their mechanistic links to the histories of climate and ocean carbonate chemistry remain elusive, but may hold future-relevant information. This project aims to use novel methods to quantify deep ocean carbonate ion concentrations, a critical but poorly constrained parameter of the global carbon cycle, at 10 key locations spanning the global o ....Deep-sea carbonate cycles and their role in glacial-interglacial atmospheric CO2 changes. The causes for past atmospheric carbon dioxide (CO2) changes and their mechanistic links to the histories of climate and ocean carbonate chemistry remain elusive, but may hold future-relevant information. This project aims to use novel methods to quantify deep ocean carbonate ion concentrations, a critical but poorly constrained parameter of the global carbon cycle, at 10 key locations spanning the global ocean during the last 350 000 years. By feeding new data into a model, this project aims to gain critical insights into mechanisms controlling past deep-sea carbonate cycles and atmospheric CO2 changes, thereby leading to improved understandings of the climate system.Read moreRead less
Bulk nanobubbles: from fundamentals to biomedical applications. This project aims to extend optical and acoustic tools to detect bulk nanobubbles, control their size-distributions, and understand how they interact with biomolecules. Liquids containing nanobubbles have numerous applications particularly in biomedicine. Using interdisciplinary approaches, this project expects to gain convincing evidence of the existence of bulk nanobubbles. This is expected to advance existing fundamental knowle ....Bulk nanobubbles: from fundamentals to biomedical applications. This project aims to extend optical and acoustic tools to detect bulk nanobubbles, control their size-distributions, and understand how they interact with biomolecules. Liquids containing nanobubbles have numerous applications particularly in biomedicine. Using interdisciplinary approaches, this project expects to gain convincing evidence of the existence of bulk nanobubbles. This is expected to advance existing fundamental knowledge at the forefront of soft matter research, and give Australia a decisive technological head start in a competitive and lucrative industry through patentable technology.Read moreRead less
Specific-ion effects in non-aqueous solvents. A test for Hofmeister. A colloidal solution is a liquid that contains a finely dispersed material. The properties of these solutions are critical in many industrially important practices and in the everyday processes of life. Though not understood, it is observed that the type of salt in solution controls how the colloid behaves. Through a series of very careful experiments we seek to learn precisely how different salts influence the properties of a ....Specific-ion effects in non-aqueous solvents. A test for Hofmeister. A colloidal solution is a liquid that contains a finely dispersed material. The properties of these solutions are critical in many industrially important practices and in the everyday processes of life. Though not understood, it is observed that the type of salt in solution controls how the colloid behaves. Through a series of very careful experiments we seek to learn precisely how different salts influence the properties of a colloidal solution. This world-leading research will enable us to improve our fundamental understanding of colloids and thereby facilitate advances in topics as diverse as enzymatic action and minerals purification, ensuring Australia remains at the forefront of science in this field.Read moreRead less
Understanding and controlling the stereochemistry of free-radical polymerisation. The stereochemistry of a molecule, which relates to the relative spatial arrangement of its atoms, can have a profound effect on its physical and chemical properties. This project will use a computer-guided experimental approach to design new methods for controlling the stereochemistry of the polymers formed in free-radical polymerisation.
Next generation supramolecular frameworks. This project aims to prepare new supramolecular frameworks assembled by hydrogen or halogen bonds. It is anticipated that this work will increase fundamental understanding of supramolecular self-assembly processes and the dynamic processes that are possible within these rearrangeable systems. The project aims to prepare a family of related frameworks, which will allow a detailed comparison of the stability, porosity and biotechnological applicability of ....Next generation supramolecular frameworks. This project aims to prepare new supramolecular frameworks assembled by hydrogen or halogen bonds. It is anticipated that this work will increase fundamental understanding of supramolecular self-assembly processes and the dynamic processes that are possible within these rearrangeable systems. The project aims to prepare a family of related frameworks, which will allow a detailed comparison of the stability, porosity and biotechnological applicability of new supramolecular materials. The expected outcomes are the development of lightweight and benign organic systems that will have applications in the removal of toxic organic and heavy metal pollutants from water, and in the encapsulation and stabilisation of catalytically-active enzymes.Read moreRead less
Engineering a technology platform for organoids. Protein delivery technologies hold great potential to improve organoids (miniature organs used as in vitro models), allowing a deep understanding of development. However, current limitations must be overcome - particularly cost, precision, and efficacy. This project will engineer delivery materials to improve the efficacy of organoids, allowing control over the location and timing of protein delivery. Outcomes will include a technology platform o ....Engineering a technology platform for organoids. Protein delivery technologies hold great potential to improve organoids (miniature organs used as in vitro models), allowing a deep understanding of development. However, current limitations must be overcome - particularly cost, precision, and efficacy. This project will engineer delivery materials to improve the efficacy of organoids, allowing control over the location and timing of protein delivery. Outcomes will include a technology platform of immediate use in the agriculture sector and for animal model alternatives. The benefit will be widespread, ensuring the growth and sustainability of our health and agriculture sector. The project will increase public understanding of protein delivery technologies, aiding in technology adoption.Read moreRead less