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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
Australian Laureate Fellowships - Grant ID: FL150100150
Funder
Australian Research Council
Funding Amount
$2,413,112.00
Summary
Bayesian learning for decision making in the big data era. Bayesian learning for decision making in the big data era: This fellowship project aims to develop new techniques in evidence-based learning and decision-making in the big data era. Big data has arrived, and with it a huge global demand for statistical knowledge and skills to analyse these data for improved learning and decision-making. This project will seek to address this need by creating a step-change in knowledge in Bayesian statist ....Bayesian learning for decision making in the big data era. Bayesian learning for decision making in the big data era: This fellowship project aims to develop new techniques in evidence-based learning and decision-making in the big data era. Big data has arrived, and with it a huge global demand for statistical knowledge and skills to analyse these data for improved learning and decision-making. This project will seek to address this need by creating a step-change in knowledge in Bayesian statistics and translating this knowledge to real-world challenges in industry, environment and health. The new big data statistical analysts trained through the project could also create much needed capacity at national and international levels.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL110100020
Funder
Australian Research Council
Funding Amount
$3,057,554.00
Summary
Consensus, estimation and control in complex large-scale quantum systems. Australia has considerable strengths in quantum technology research and as these technologies advance, the issue of control becomes a critical one. This project will strengthen Australia's position in quantum technology by developing new methodologies for designing high performance controllers and estimators for complex quantum systems.
Australian Laureate Fellowships - Grant ID: FL110100003
Funder
Australian Research Council
Funding Amount
$1,814,346.00
Summary
New directions, new problems and new data types in statistical science. Statistically challenging problems today involve answering many more questions than we have data. Solving them will elucidate the causes of diseases such as cancer, and provide better security for the community. The project will develop new methods for tackling these challenging problems, taking statistical science in new directions.
Australian Laureate Fellowships - Grant ID: FL150100019
Funder
Australian Research Council
Funding Amount
$3,041,282.00
Summary
Precision laser levitation for quantum metrology and gravitational sensing. Precision laser levitation for quantum metrology and gravitational sensing: This fellowship project aims to levitate macroscopic objects using only laser beams, to provide a new tool to test physics theories. Strong laser beams can exert sufficient force to counteract gravity and make an object levitate. In contrast to other forms of levitation, laser levitation is scatter-free and can preserve system coherence. It has s ....Precision laser levitation for quantum metrology and gravitational sensing. Precision laser levitation for quantum metrology and gravitational sensing: This fellowship project aims to levitate macroscopic objects using only laser beams, to provide a new tool to test physics theories. Strong laser beams can exert sufficient force to counteract gravity and make an object levitate. In contrast to other forms of levitation, laser levitation is scatter-free and can preserve system coherence. It has superior optical and mechanical quality factors and complete information of the system dynamics is retained. This allows laser levitation to be turned into a highly controllable and ultra-sensitive device capable of detecting minute environmental changes. This research aims to probe the relationship between quantum and gravitational physics and develop laser levitation into a precision instrument for the sensing of gravity. Laser levitation has the potential to be developed into technology for mineral exploration and environmental sensing.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100117
Funder
Australian Research Council
Funding Amount
$2,713,582.00
Summary
Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better cat ....Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better catalysts. Other applications include bio-sensing and rapid pathogen detection. To realise these potential outcomes, a leading international cluster focussing on plasmonics will be set up and this cluster will link state-of-the-art materials science, instrumentation and theory.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100087
Funder
Australian Research Council
Funding Amount
$2,539,442.00
Summary
Predictive simulation of crystallisation. This project aims to create new methodologies for quantitatively predicting the result of crystallisation processes, which are central to industries from pharmaceutical and food manufacture through to minerals processing. The outcomes will include the commercialisation of new technologies for computer modelling, economic impact in several key industries, and capacity building in analytical skills. Target project applications includes accelerating the dev ....Predictive simulation of crystallisation. This project aims to create new methodologies for quantitatively predicting the result of crystallisation processes, which are central to industries from pharmaceutical and food manufacture through to minerals processing. The outcomes will include the commercialisation of new technologies for computer modelling, economic impact in several key industries, and capacity building in analytical skills. Target project applications includes accelerating the development cycle for pharmaceuticals and reducing scale formation within both oil/gas pipelines and desalination plants.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100041
Funder
Australian Research Council
Funding Amount
$2,327,500.00
Summary
Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling compl ....Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling complex molecules and materials. The project also offers a unique opportunity to train the next generation of chemists in the principles of computer-aided chemical design. The catalysts developed in this project will be able to accelerate and control the chemical reactions used in the synthesis of pharmaceuticals and materials, with significant practical benefits to industry.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100124
Funder
Australian Research Council
Funding Amount
$3,372,617.00
Summary
Very small nanoparticles made to measure. The administration of therapeutic drugs is often unsuccessful as the drug is quickly cleared from the body. Nanoparticles have been shown to enhance the efficiency of the drug administration, as evidenced by the increasing number of nanoformulations on the market, although commercially available products have currently a range of shortcomings, some of them related to their size. This research program aims to develop a toolset that allows the design of ve ....Very small nanoparticles made to measure. The administration of therapeutic drugs is often unsuccessful as the drug is quickly cleared from the body. Nanoparticles have been shown to enhance the efficiency of the drug administration, as evidenced by the increasing number of nanoformulations on the market, although commercially available products have currently a range of shortcomings, some of them related to their size. This research program aims to develop a toolset that allows the design of very small nanoparticles that display enhanced biological activity. The outcome will be an in-depth understanding of the relationship between polymer structure and properties, which is not only important for nanomedicine, but other areas such as catalysis and sensors. 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