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: FL170100014
Funder
Australian Research Council
Funding Amount
$3,275,680.00
Summary
Light-Induced chemical modularity: a new frontier in macromolecular design. This project aims to develop powerful light-driven chemistries for the modular construction of advanced macromolecular materials. The expected outcome is a versatile, light-based precision macromolecular synthetic technology platform, enabling critical advances in soft matter material design and synthesis, ranging from selectivity control of chemical reactions and information-coded and biomimetic light-responsive macromo ....Light-Induced chemical modularity: a new frontier in macromolecular design. This project aims to develop powerful light-driven chemistries for the modular construction of advanced macromolecular materials. The expected outcome is a versatile, light-based precision macromolecular synthetic technology platform, enabling critical advances in soft matter material design and synthesis, ranging from selectivity control of chemical reactions and information-coded and biomimetic light-responsive macromolecules to advanced functional photoresists for 3D laser lithography as well as materials that self-report structural transformations by light or are reprogrammable in their properties by photonic fields. Harnessing the power of light as a precision tool for the construction of advanced macromolecular materials will provide technology outcomes for Australian manufacturing industries from electronics to health. This includes laser-driven 3D printing technology at the nano-level, light-adaptive smart reprogrammable coatings and materials, synthetic proteins responsive to light as well as tailor-made single cell niches.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100168
Funder
Australian Research Council
Funding Amount
$2,899,722.00
Summary
Illuminating the dark universe. This project aims to measure and explain the dark side of the universe, by performing new theoretical analyses of two groundbreaking surveys. Dark energy and dark matter are amongst the most profound puzzles facing fundamental physics. The Dark Energy Survey expects to discover approximately 3000 supernovae, and using The Dark Energy Spectroscopic Instrument will measure distances to 30 million galaxies. This project will combine these findings to determine whethe ....Illuminating the dark universe. This project aims to measure and explain the dark side of the universe, by performing new theoretical analyses of two groundbreaking surveys. Dark energy and dark matter are amongst the most profound puzzles facing fundamental physics. The Dark Energy Survey expects to discover approximately 3000 supernovae, and using The Dark Energy Spectroscopic Instrument will measure distances to 30 million galaxies. This project will combine these findings to determine whether dark energy changes with time, narrow the search for a quantum theory of gravity, and complete the standard model of particle physics by measuring the mass of the neutrino, a subatomic particle. This will substantially advance our understanding of the physics of our Universe, inspiring the next generation of innovators.Read moreRead less
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: FL160100067
Funder
Australian Research Council
Funding Amount
$2,888,048.00
Summary
Transformational lighting: changing the way we live. Transformational lighting: changing the way we live. This Fellowship aims to advance the science of ultrathin efficient lighting technologies based on low embedded energy organic light-emitting diodes (OLED). By creating innovative semiconductor materials and diode architectures that optimise each step in light generation—from charge injection, transport and capture to light emission—the project aims to deliver transformative OLED lighting tha ....Transformational lighting: changing the way we live. Transformational lighting: changing the way we live. This Fellowship aims to advance the science of ultrathin efficient lighting technologies based on low embedded energy organic light-emitting diodes (OLED). By creating innovative semiconductor materials and diode architectures that optimise each step in light generation—from charge injection, transport and capture to light emission—the project aims to deliver transformative OLED lighting that is more efficient than standard fluorescents by 50%. The intended outcomes of the project are design rules for OLED componentry, including thin, flexible architectures for deployment in a range of environments. The project would prototype the new technology at scale, demonstrating a large-area lighting module with power efficiency of 150 lm/W.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100155
Funder
Australian Research Council
Funding Amount
$2,815,901.00
Summary
A molecular quantum simulator. This project will create a molecular quantum simulator to address outstanding questions in the fields of superconductivity, superfluidity, quantum magnetism, topological quantum matter, and quantum non-equilibrium physics. This project will enable Australia to compete with other nations’ efforts to build quantum technologies that are enabled by cold atom and cold molecule physics for future needs in simulation, computing, sensing and metrology.
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: FL230100100
Funder
Australian Research Council
Funding Amount
$3,300,000.00
Summary
Forces in Nature: Tissue mechanics and cell sociology. Epithelial cells cover surfaces in the body, forming a shield to protect us from the environment. Despite their importance, we understand poorly how the cells communicate. This project aims to test the novel concept that epithelial cells communicate via transmission and detection of mechanical forces, using an innovative combination of cellular and biophysical experiments and physical theory. The expected outcomes are new knowledge, interdis ....Forces in Nature: Tissue mechanics and cell sociology. Epithelial cells cover surfaces in the body, forming a shield to protect us from the environment. Despite their importance, we understand poorly how the cells communicate. This project aims to test the novel concept that epithelial cells communicate via transmission and detection of mechanical forces, using an innovative combination of cellular and biophysical experiments and physical theory. The expected outcomes are new knowledge, interdisciplinary training for young scientists, new national research capacity and growing international collaborations. Benefits include enhancing Australia’s scientific linkages and research capacity and providing fundamental knowledge that could lead to future advances in bioengineering and drug discovery. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100045
Funder
Australian Research Council
Funding Amount
$3,245,263.00
Summary
Energy-efficient artificial intelligence using quantum technologies. Artificial intelligence (AI) is transforming society but standard technologies come with significant hidden costs: training even a single, common, learning model can emit 5 times more carbon dioxide than the lifetime emissions of the average car. This Fellowship aims to develop artificial intelligence platforms using Australia’s significant investment in quantum technologies to bypass traditional approaches to AI. The expected ....Energy-efficient artificial intelligence using quantum technologies. Artificial intelligence (AI) is transforming society but standard technologies come with significant hidden costs: training even a single, common, learning model can emit 5 times more carbon dioxide than the lifetime emissions of the average car. This Fellowship aims to develop artificial intelligence platforms using Australia’s significant investment in quantum technologies to bypass traditional approaches to AI. The expected outcomes are neuromorphic computers that operate efficiently—with low-energy cost—and rapidly—achieving speeds impossible with conventional electronic approaches. The anticipated benefits are transformative technologies for AI, new applications across society, and new tools for exploring brain function and cognition.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL140100044
Funder
Australian Research Council
Funding Amount
$2,647,521.00
Summary
What is natural? Humans, megafauna and climate in northern Australia. What is natural? Humans, megafauna and climate in northern Australia. This project aims to produce the first long-term (100,000 year), replicated, high-resolution terrestrial records of environmental change before, during and after the arrival of humans in Australian savannas. These records will be the first in the world to extract, from the same material, independent, cutting-edge organic and isotope geochemical records of ch ....What is natural? Humans, megafauna and climate in northern Australia. What is natural? Humans, megafauna and climate in northern Australia. This project aims to produce the first long-term (100,000 year), replicated, high-resolution terrestrial records of environmental change before, during and after the arrival of humans in Australian savannas. These records will be the first in the world to extract, from the same material, independent, cutting-edge organic and isotope geochemical records of changes in water balance, vegetation type and fire activity. This will enable natural and human drivers of change in northern Australia's climate and biodiversity to be disentangled on two timescales: millennial: before, during and after Aboriginal arrival in northern Australia and centennial: before, during and after European arrival in northern Australia.Read moreRead less