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Australian Laureate Fellowships - Grant ID: FL170100101
Funder
Australian Research Council
Funding Amount
$2,843,970.00
Summary
Towards sustainable electrochemical energy storage technology. This project aims to address fundamental issues on electrochemical energy storage technology using sodium-ion capacitors, by designing novel electrode materials and utilising advanced, in-situ and ex-situ instrumental techniques in combination with modern computational simulation methods. The project will lead to a complete understanding of the charge storage mechanism and transport kinetics in sodium-ion capacitors, providing guide ....Towards sustainable electrochemical energy storage technology. This project aims to address fundamental issues on electrochemical energy storage technology using sodium-ion capacitors, by designing novel electrode materials and utilising advanced, in-situ and ex-situ instrumental techniques in combination with modern computational simulation methods. The project will lead to a complete understanding of the charge storage mechanism and transport kinetics in sodium-ion capacitors, providing guidelines for developing sustainable electrochemical energy storage technology. The project expects to generate new knowledge in energy storage including capacity building, training of young scientists, and intellectual property with potential commercialised products.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100095
Funder
Australian Research Council
Funding Amount
$3,095,070.00
Summary
Materials Nanotectonics: Designing Conductive Inorganic Porous Materials. This project aims to develop the next generation of conductive porous materials through an integrated approach which combines inorganic synthesis with informatics. Using this approach, transition metals can be combined with nonmetals creating mesoporous materials with precise control of their internal space allowing the correlations between structure, composition, properties, and performance to be revealed. This project is ....Materials Nanotectonics: Designing Conductive Inorganic Porous Materials. This project aims to develop the next generation of conductive porous materials through an integrated approach which combines inorganic synthesis with informatics. Using this approach, transition metals can be combined with nonmetals creating mesoporous materials with precise control of their internal space allowing the correlations between structure, composition, properties, and performance to be revealed. This project is expected to generate new highly efficient electrocatalysts and energy conversion devices based on low-cost and earth-abundant transition metals. The project outcomes will position Australia at the forefront of research and development in advanced materials, smart catalysts, and renewable energy technologies.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100059
Funder
Australian Research Council
Funding Amount
$2,937,786.00
Summary
Digital chemistry and catalysis: redefining reactions in confined systems. This Laureate program aims to initiate a new era of chemical catalysis and reaction manipulation via an entirely novel nanofluidic approach discovered in Australia. By further studying this phenomenon, it aims to deliver new insights into what drives chemical reactions in confined systems controlled by applied electric fields. It will also develop novel technology platforms to miniaturise and enable on-demand software-con ....Digital chemistry and catalysis: redefining reactions in confined systems. This Laureate program aims to initiate a new era of chemical catalysis and reaction manipulation via an entirely novel nanofluidic approach discovered in Australia. By further studying this phenomenon, it aims to deliver new insights into what drives chemical reactions in confined systems controlled by applied electric fields. It will also develop novel technology platforms to miniaturise and enable on-demand software-controlled (digital) chemistry, with broad applications in pharmaceutical, biotechnology and chemical industries. Project success will have a profound impact in many areas of modern society, the environment and the high-tech and manufacturing industry, while further enhancing Australia's sovereign manufacturing capability.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL150100146
Funder
Australian Research Council
Funding Amount
$2,977,310.00
Summary
Taking Australia from the farm to the pharm. Taking Australian from the farm to the pharm: This fellowship project aims to design novel drugs based on cyclic peptides that will be expressed in the seeds of plants to produce bio-pills — saving money for patients and the health care system. Plants produce unique cyclic peptides (mini-proteins) to protect themselves from pests and pathogens. This project aims to chemically redesign these peptides to produce stable protein-based pharmaceuticals that ....Taking Australia from the farm to the pharm. Taking Australian from the farm to the pharm: This fellowship project aims to design novel drugs based on cyclic peptides that will be expressed in the seeds of plants to produce bio-pills — saving money for patients and the health care system. Plants produce unique cyclic peptides (mini-proteins) to protect themselves from pests and pathogens. This project aims to chemically redesign these peptides to produce stable protein-based pharmaceuticals that can be eaten. It is hoped that these designer pharmaceuticals will be inexpensive, effective, easy to ingest and without the side effects of traditional drugs. The outcomes of this project are anticipated to be high-value drugs and agri-chemicals which will open up new high-value crops for Australian farmers and a new Australian ‘pharming’ industry.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100139
Funder
Australian Research Council
Funding Amount
$2,965,538.00
Summary
Outside-In: Strain stiffening as a key to cell control. Outside-In: Strain stiffening as a key to cell control. This research project aims to unravel the highly complex mechanical behaviour of the extracellular matrix, and develop a whole new class of sophisticated and responsive extracellular matrix (ECM) materials. In any multicellular organism, the ECM provides cells with essential mechanical (such as strain stiffening) and biochemical support. The ECM is also critical for biological processe ....Outside-In: Strain stiffening as a key to cell control. Outside-In: Strain stiffening as a key to cell control. This research project aims to unravel the highly complex mechanical behaviour of the extracellular matrix, and develop a whole new class of sophisticated and responsive extracellular matrix (ECM) materials. In any multicellular organism, the ECM provides cells with essential mechanical (such as strain stiffening) and biochemical support. The ECM is also critical for biological processes inside the cell, including proliferation, differentiation and migration. Exactly how the physical and chemical properties of ECMs on the outside of the cell modify the behaviour of a cell on the inside remains unclear. Outcomes would include a blueprint for synthetic ECMs, pushing the boundaries of materials development in the biological and life sciences.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100080
Funder
Australian Research Council
Funding Amount
$3,432,323.00
Summary
New frontiers for nonequilibrium systems. The universe is comprised of systems in states of change or responding to a driving force. Yet a fundamental understanding of these nonequilibrium systems that enables predictive design has eluded scientists to date. This program aims to develop ground-breaking principles and methodologies to predict properties of nonequilibrium systems using both statistical physics and molecular simulations. Significantly, by pioneering new theories and building Austra ....New frontiers for nonequilibrium systems. The universe is comprised of systems in states of change or responding to a driving force. Yet a fundamental understanding of these nonequilibrium systems that enables predictive design has eluded scientists to date. This program aims to develop ground-breaking principles and methodologies to predict properties of nonequilibrium systems using both statistical physics and molecular simulations. Significantly, by pioneering new theories and building Australian capacity in this area, we will be able to understand, control and utilise their distinctive behaviour in design. Expected outcomes and benefits are multi-dimensional, including breakthrough theory and new capability for high-end technologies such as nanofluidics, robotics and batteries.Read moreRead less