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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100064
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Optically controlled containers for experiments in soft matter. Nanotechnology has a promising future in the fabrication of small machines but exactly how these machines work is far less certain as they defy fundamental, classical thermodynamics. This equipment will allow Australian researchers to probe the energy dissipation of, and the work done by, small systems, including those of single molecules, colloidal crystals and membranes.
Improving nanostructured supercapacitors through computational insight. This project aims to understand the mechanism of charge and discharge in nanostructured supercapacitors to guide in the development of better energy storage systems. This will be achieved using molecular computations of the structure and diffusion coefficients in supercapacitors with various electrodes of different nanostructure and chemical composition. A statistical mechanical definition of the local diffusion coefficien ....Improving nanostructured supercapacitors through computational insight. This project aims to understand the mechanism of charge and discharge in nanostructured supercapacitors to guide in the development of better energy storage systems. This will be achieved using molecular computations of the structure and diffusion coefficients in supercapacitors with various electrodes of different nanostructure and chemical composition. A statistical mechanical definition of the local diffusion coefficient will provide important information on the mobility of ions in different regions near the electrodes. Knowledge on how nanostructured electrodes affect supercapacitor function will allow advances in energy storage systems that are of great significance for our future energy needs.Read moreRead less
Fluid Transport in Materials of Nanoscale Dimensions. This project aims to transform the modelling of fluid transport in materials of nanoscale dimension by determining the coupled interfacial heat and mass-transfer barriers, which critically influence the transport. The outcome will not only be new knowledge on the effects of inherent structural distortion and of the barriers on the fluid flow, but also cutting-edge techniques to estimate system size-dependent transport coefficients in nanoscal ....Fluid Transport in Materials of Nanoscale Dimensions. This project aims to transform the modelling of fluid transport in materials of nanoscale dimension by determining the coupled interfacial heat and mass-transfer barriers, which critically influence the transport. The outcome will not only be new knowledge on the effects of inherent structural distortion and of the barriers on the fluid flow, but also cutting-edge techniques to estimate system size-dependent transport coefficients in nanoscale systems. These will be achieved through a combination of targeted molecular dynamics simulations and experiment, and will have far-reaching implications for nanotechnology and emerging processes in catalysis, gas separation, human health and nanofluidics, and enable design of more efficient systems.Read moreRead less
Positron Nano-Dosimetry: Fundamental Measurements of Positron Interactions and their use in State-of-the-Art Modelling of Positron Transport. This proposal will provide unique experimental and theoretical information on how positrons, the electron antiparticles, interact with matter, in particular with biologically important molecules. This data will be used in a unique set of modelling approaches which will provide, for the first time, an insight into how positrons are transported through gases ....Positron Nano-Dosimetry: Fundamental Measurements of Positron Interactions and their use in State-of-the-Art Modelling of Positron Transport. This proposal will provide unique experimental and theoretical information on how positrons, the electron antiparticles, interact with matter, in particular with biologically important molecules. This data will be used in a unique set of modelling approaches which will provide, for the first time, an insight into how positrons are transported through gases, liquids and ultimately, soft matter. It will thus have important ramifications for diagnostic tools such as Positron Emission Tomography. The fundamental research will also shed light on one of the key 'mysteries' of life - why the biological building blocks of life possess a definite " handedness", or chirality.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100433
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Optimising light harvesting using quantum transport. Observations of wavelike energy transport in photosynthetic systems have exposed the role of quantum mechanics in natural light harvesting. This project is a study of how light harvesting functions for an incoherent source like sunlight. In sunlight, energy transport occurs at steady state, a dramatically simpler regime than when a coherent source like lasers are used. This project will exploit this simplification to develop new methods for tr ....Optimising light harvesting using quantum transport. Observations of wavelike energy transport in photosynthetic systems have exposed the role of quantum mechanics in natural light harvesting. This project is a study of how light harvesting functions for an incoherent source like sunlight. In sunlight, energy transport occurs at steady state, a dramatically simpler regime than when a coherent source like lasers are used. This project will exploit this simplification to develop new methods for treating light harvesting in sunlight and apply them to a variety of natural and artificial systems. It will clarify how bacteria and plants harvest sunlight and lead to design principles that will enable artificial light harvesting to take advantage of quantum effects.Read moreRead less
Understanding dissipation, thermal conduction and diffusion in superionic conductors using ab initio nonequilibrium molecular dynamics simulation. Lithium ion batteries are widely used in computers, cars and more recently in aircraft. However they may exhibit thermal runaway leading to fire. Recently these problems have grounded the fleet of Boeing 787 aircraft, worldwide. Understanding superionic conduction is of thus of considerable technological importance. The project will focus on understa ....Understanding dissipation, thermal conduction and diffusion in superionic conductors using ab initio nonequilibrium molecular dynamics simulation. Lithium ion batteries are widely used in computers, cars and more recently in aircraft. However they may exhibit thermal runaway leading to fire. Recently these problems have grounded the fleet of Boeing 787 aircraft, worldwide. Understanding superionic conduction is of thus of considerable technological importance. The project will focus on understanding mass and heat flow in superionic conductors using a new molecular simulation technique that the team has recently developed. This technique combines nonequilibrium statistical mechanics and ab initio molecular dynamics simulation. The project will learn how heat is generated and conducted through these materials and how temperature influences these processes, and how heat and mass flow couple together.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100112
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
A Raman facility for advanced research supporting Australia’s natural gas, oil, coal and minerals industries. This modern Raman Spectroscopy facility will support the science and engineering that underpins the production and processing of Australia’s natural resources. Using high-pressure fibre optics, novel lasers and advanced imaging, the facility will enable the monitoring and improvement of processes and materials under extreme conditions.
A Human Factors Approach to the Design of Visual Information in the Highway Environment. Visual information in the highway environment affects drivers' perception, behaviour, and accident propensity. Using a range of methods and approaches, issues of key importance in road design will be addressed, e.g. (1) how increasing visual clutter in the road environment affects accident-producing behaviour, (2) how certain road situations create particular problems for the increasing number of older drive ....A Human Factors Approach to the Design of Visual Information in the Highway Environment. Visual information in the highway environment affects drivers' perception, behaviour, and accident propensity. Using a range of methods and approaches, issues of key importance in road design will be addressed, e.g. (1) how increasing visual clutter in the road environment affects accident-producing behaviour, (2) how certain road situations create particular problems for the increasing number of older drivers, and (3) how the road environment can be redesigned to reduce fundamental perceptual errors made by drivers. The proposal will generate new guidelines for how future road design can be optimised to minimise crash rates.Read moreRead less
Thixotropic Structure Generation and Semisolid Casting of Aluminium and Magnesium Alloys. A range of aluminium and magnesium alloys will be prepared by controlled-pouring to produce structures suitable for semisolid forming. The conditions around grain nucleation and growth will be studied to ascertain the controlling factors in producing suitable microstructures. A computer model to simulate the thixotropic structure formation and define the processing parameters will be developed. Semisolid c ....Thixotropic Structure Generation and Semisolid Casting of Aluminium and Magnesium Alloys. A range of aluminium and magnesium alloys will be prepared by controlled-pouring to produce structures suitable for semisolid forming. The conditions around grain nucleation and growth will be studied to ascertain the controlling factors in producing suitable microstructures. A computer model to simulate the thixotropic structure formation and define the processing parameters will be developed. Semisolid casting using the produced feedstock will lead to extensive knowledge about the effect of different microstructures and alloys on semisolid castability. Outcomes from the project will significantly advance the scientific understanding of the thixotropic structure generation and accelerate the development of semisolid processing technology.Read moreRead less
Low-cost, Lightweight and Liquid Helium-free Superconducting MRI Magnet. This project aims to develop a liquid-helium-free superconducting technology to address the need for more affordable MRI magnets that currently rely on expensive, limited supplies of liquid helium. This project expects to generate a world-first, much needed MRI systems to be operated in persistent mode without a power supply, to obtain high-resolution images and low-cost operation. The expected outcomes include a novel, lig ....Low-cost, Lightweight and Liquid Helium-free Superconducting MRI Magnet. This project aims to develop a liquid-helium-free superconducting technology to address the need for more affordable MRI magnets that currently rely on expensive, limited supplies of liquid helium. This project expects to generate a world-first, much needed MRI systems to be operated in persistent mode without a power supply, to obtain high-resolution images and low-cost operation. The expected outcomes include a novel, lightweight, easy-to-operate magnesium diboride superconducting MRI magnet prototype under persistent mode operation. This should provide significant benefits, including reducing the cost associated with conventional liquid helium-dependent technologies and ensuring Australia at the forefront of MRI development worldwide.Read moreRead less