Australian Laureate Fellowships - Grant ID: FL100100099
Funder
Australian Research Council
Funding Amount
$2,340,409.00
Summary
An accelerating journey to the new era of Petabyte optical memory systems. Optical data storage is one of the core aspects of optical information technology which has been globally recognised as one of the next generation high-technology areas that can boost our economy for sustainable development. However, the emergence of blue ray or high-definition DVDs has identified that current optical data storage technology will soon approach the limit of the data storage capacity of approximately 100 Gi ....An accelerating journey to the new era of Petabyte optical memory systems. Optical data storage is one of the core aspects of optical information technology which has been globally recognised as one of the next generation high-technology areas that can boost our economy for sustainable development. However, the emergence of blue ray or high-definition DVDs has identified that current optical data storage technology will soon approach the limit of the data storage capacity of approximately 100 Gigabytes. The ground-breaking Petabyte data storage technology we will research will result in the storage capacity of 10,000 DVDs in one disc and thus underpin every sector of our modern life such as remote education, portable banking, global e-security and telemedicine as well as lead to enormous economic benefits in Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100030
Funder
Australian Research Council
Funding Amount
$541,705.00
Summary
National facility for nanoscale characterisation of luminescent materials. The project aims to establish a national facility for nanoscale characterisation of advanced optoelectronic materials, including atomically-thin materials, luminescent nanocrystals, metamaterials, and plasmonic nanostructures. The combination of a highly focused electron beam, and novel light detection optics, will enable temperature-dependent, angle, polarisation and time-resolved luminescence analysis with unprecedented ....National facility for nanoscale characterisation of luminescent materials. The project aims to establish a national facility for nanoscale characterisation of advanced optoelectronic materials, including atomically-thin materials, luminescent nanocrystals, metamaterials, and plasmonic nanostructures. The combination of a highly focused electron beam, and novel light detection optics, will enable temperature-dependent, angle, polarisation and time-resolved luminescence analysis with unprecedented resolution. It is expected this will yield discoveries in nanoscale physics and materials science. It will create interdisciplinary collaborations by linking Australian scientists who use high-resolution multimodal characterisation methods to innovate and develop materials and device technologies.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101665
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Nanophotonic engineering for Petabyte 3D opto-magnetic data storage. To tackle the capacity bottleneck of current big data centres enabled by hard disk drives, this project aims to investigate an entirely new concept of petabyte 3D opto-magnetic data storage by nanophotonic engineering of the Inverse Faraday Effect (IFE) based on breakthrough achievements in 3D orientation-unlimited polarisation control and the innovative discovery of the polarisation dependent IFE. This project aims to produce ....Nanophotonic engineering for Petabyte 3D opto-magnetic data storage. To tackle the capacity bottleneck of current big data centres enabled by hard disk drives, this project aims to investigate an entirely new concept of petabyte 3D opto-magnetic data storage by nanophotonic engineering of the Inverse Faraday Effect (IFE) based on breakthrough achievements in 3D orientation-unlimited polarisation control and the innovative discovery of the polarisation dependent IFE. This project aims to produce cutting-edge opto-magnetic information technologies to revolutionise magnetic storage industries and provide a new paradigm of exabyte data centres for a sustainable future, thereby maximising Australia's competitive advantage in the emerging big data sector.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100124
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Rapid prototyping 3-D nano-pattern large area writer . Rapid prototyping 3-D nano-pattern large area writer:
The project aims to establish a nanoscale three-dimensional patterning rapid prototyping capability to enable advanced nanofabrication research and development. The extension of patterning nanostructured materials in three dimensions with nanometre resolution, developed for semiconductor processing, to nano-electronics, nanophotonics, nanosensors, nanobiotechnology and fundamental studi ....Rapid prototyping 3-D nano-pattern large area writer . Rapid prototyping 3-D nano-pattern large area writer:
The project aims to establish a nanoscale three-dimensional patterning rapid prototyping capability to enable advanced nanofabrication research and development. The extension of patterning nanostructured materials in three dimensions with nanometre resolution, developed for semiconductor processing, to nano-electronics, nanophotonics, nanosensors, nanobiotechnology and fundamental studies of nanoscale phenomena in science and engineering has opened new opportunities in these areas. As these areas accelerate, there is a need to develop nanoscale patterns and structures via rapid prototyping pathways and with methods accessible to an ever-diverse researcher base without a background in nanofabrication. By establishing the first NanoFrazor in Australia, this project aims to provide new technology for the fabrication of high-resolution nanoscale structures and patterns.
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ARC Centre of Excellence for Nanoscale BioPhotonics. The CNBP brings together physicists, chemists and biologists focused on a grand challenge controlling nanoscale interactions between light and matter to probe the complex and dynamic nanoenvironments within living organisms. The emerging convergence of nanoscience and photonics offers the opportunity of using light to interrogate nanoscale domains, providing unprecedentedly localised measurements. This will allow biological scientists to unde ....ARC Centre of Excellence for Nanoscale BioPhotonics. The CNBP brings together physicists, chemists and biologists focused on a grand challenge controlling nanoscale interactions between light and matter to probe the complex and dynamic nanoenvironments within living organisms. The emerging convergence of nanoscience and photonics offers the opportunity of using light to interrogate nanoscale domains, providing unprecedentedly localised measurements. This will allow biological scientists to understand how single cells react to and communicate with their surroundings. This science will underpin a new generation of devices capable of probing the response of cells within individuals to environmental conditions or treatment, creating innovative and powerful new sensing platforms.Read moreRead less
Nanoscale silicon field-effect transistor diagnostic technology. This project aims to overcome barriers to the implementation of silicon field-effect transistor biosensors. It will investigate the biosensors’ physical and structural properties. This knowledge, combined with technological and conceptual advances, could foster the development of an advanced and translational point-of-care diagnostic technology to rapidly and sensitively detect malignant tissues. Such technology would have commerci ....Nanoscale silicon field-effect transistor diagnostic technology. This project aims to overcome barriers to the implementation of silicon field-effect transistor biosensors. It will investigate the biosensors’ physical and structural properties. This knowledge, combined with technological and conceptual advances, could foster the development of an advanced and translational point-of-care diagnostic technology to rapidly and sensitively detect malignant tissues. Such technology would have commercial potential and important societal benefits.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100954
Funder
Australian Research Council
Funding Amount
$374,852.00
Summary
Tailoring light with advanced plasmonic devices. The project will develop advanced nanophotonic elements for the control of light. The outcomes will progress the knowledge of optics on the nanoscale and will underpin new devices for use in a range of applications including biotechnology, medicine, defence and telecommunications.
Discovery Early Career Researcher Award - Grant ID: DE200100074
Funder
Australian Research Council
Funding Amount
$418,210.00
Summary
Nanoscale laser cooling in physiological environment. By developing fluorescence pattern-based 3D motion-detection technology in optical tweezers, this project aims to reveal how to achieve nanoscale laser cooling in physiological media. It plans to discover new mechanisms of cooling associated with surface phonons and energy looping in optically trapped lanthanide-doped nanoparticles. Key expected outcomes are technology and a toolset to create interaction between cooled nanoscale objects and b ....Nanoscale laser cooling in physiological environment. By developing fluorescence pattern-based 3D motion-detection technology in optical tweezers, this project aims to reveal how to achieve nanoscale laser cooling in physiological media. It plans to discover new mechanisms of cooling associated with surface phonons and energy looping in optically trapped lanthanide-doped nanoparticles. Key expected outcomes are technology and a toolset to create interaction between cooled nanoscale objects and biological samples. These are expected to create a research area of biological laser refrigeration, enabling intracellular organelles cooling, nanoscale membrane disruption and high sensitivity force-sensing for integrin study for use in single-molecule biophysics and multimodality subcellular sensing.Read moreRead less
Novel 2-photon atom manipulation for ultra-nanoscale processing of diamond. There is intense interest in exploiting diamond's remarkable properties in many fields of science and technology, but fabricating and processing devices remains a major challenge. This project will build on previous work, using a recently discovered novel laser-induced surface phenomenon that enables, for the first time for any material, the exciting prospect of using light to manipulate surface atoms with atomic precis ....Novel 2-photon atom manipulation for ultra-nanoscale processing of diamond. There is intense interest in exploiting diamond's remarkable properties in many fields of science and technology, but fabricating and processing devices remains a major challenge. This project will build on previous work, using a recently discovered novel laser-induced surface phenomenon that enables, for the first time for any material, the exciting prospect of using light to manipulate surface atoms with atomic precision. This project aims to elucidate the mechanisms underpinning the optical interaction to reveal its full potential and use it to address key problems in diamond nano-device fabrication that lie beyond the reach of current techniques. It is expected that the outcomes will directly enhance Australia's current strengths in diamond-based quantum and photonic technologies.Read moreRead less
Developing a simple method for characterising the mechanical properties of nanowhiskers. This project aims to accurately measure mechanical properties of nanostructures, addressing a challenging issue in the ongoing development of nanotechnology. The success of this project will provide important advances in the understanding of the mechanical behaviour of nanowhiskers and assist in the further development of nanomaterials.