Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560716
Funder
Australian Research Council
Funding Amount
$864,610.00
Summary
A National T-ray Facility. T-rays are between microwaves and infrared on the electromagnetic spectrum. Recently, advances in femtosecond lasers enabled access to T-ray frequencies, producing an important new imaging modality for non-invasive sensing of materials and structures. Internationally, T-rays represent a rich new science leading to advanced forms of biophotonics, biomedical imaging and spectroscopy. Non-invasive T-ray diagnostics of nano- and bio-materials are being hotly pursued. The o ....A National T-ray Facility. T-rays are between microwaves and infrared on the electromagnetic spectrum. Recently, advances in femtosecond lasers enabled access to T-ray frequencies, producing an important new imaging modality for non-invasive sensing of materials and structures. Internationally, T-rays represent a rich new science leading to advanced forms of biophotonics, biomedical imaging and spectroscopy. Non-invasive T-ray diagnostics of nano- and bio-materials are being hotly pursued. The outcome will be a strategically important Australian T-ray facility that will provide immediate and transparent nationwide access. Historically, industry is transformed every time a new part of the electromagnetic spectrum becomes accessible - T-rays are the next frontier.Read moreRead less
Intelligent Freeform Bio-fabrication for Customised Anatomical Structures for Reconstructive Surgery. This project contributes towards the ARC priority goal on advanced materials and frontier technologies by developing an intelligent freeform biofabrication facility to produce accurate anatomical biocompatible replica structures and implants for reconstructive surgery. The products, produced from patient's CT or MRI scan data, will contribute to complex surgical procedure planning and patient ed ....Intelligent Freeform Bio-fabrication for Customised Anatomical Structures for Reconstructive Surgery. This project contributes towards the ARC priority goal on advanced materials and frontier technologies by developing an intelligent freeform biofabrication facility to produce accurate anatomical biocompatible replica structures and implants for reconstructive surgery. The products, produced from patient's CT or MRI scan data, will contribute to complex surgical procedure planning and patient education. The proposed facility will be based on multifunctional freeform fabrication process supported by intelligent software tools and database of biocompatible materials. The prospective outcomes are likely to have an excellent commercial and patenting potential that may help Australia become a leader in biomanufacturing technology.Read moreRead less
Special Research Initiatives - Grant ID: SR0354467
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
New Frontiers in Structural Health Monitoring. In-situ Structural Health Monitoring (SHM) is part of a current revolution in smart-structures technologies promising quantum gains in performance, endurance and cost-efficient maintenance for high-value assets. The aim of the proposed network is to provide a platform for collaborative, multidisciplinary research, research training and innovation by integrating currently disparate programs in SHM, since the high investment costs for the development ....New Frontiers in Structural Health Monitoring. In-situ Structural Health Monitoring (SHM) is part of a current revolution in smart-structures technologies promising quantum gains in performance, endurance and cost-efficient maintenance for high-value assets. The aim of the proposed network is to provide a platform for collaborative, multidisciplinary research, research training and innovation by integrating currently disparate programs in SHM, since the high investment costs for the development of next generation smart technologies make a collaborative approach an absolute necessity. Its significance includes the efficient generation of world-class research outcomes in the key technologies enabling this revolution, viz. (i) sensor technologies; (ii) multifunctional materials; and (iii) intelligent systems, and the timely dissemination of these outcomes to Australian industry.Read moreRead less
A Novel Optical Source for the Vaporization and Deposition of Polymers. Thin polymer films are used widely in industrial processes and, hence, new techniques for producing such films are increasingly important. This project develops new optical technology required before a novel process for depositing polymers from the vapour phase can be widely explored for industrial applications. This project will enhance the capacity of Australian science in this important area of technology and could benefi ....A Novel Optical Source for the Vaporization and Deposition of Polymers. Thin polymer films are used widely in industrial processes and, hence, new techniques for producing such films are increasingly important. This project develops new optical technology required before a novel process for depositing polymers from the vapour phase can be widely explored for industrial applications. This project will enhance the capacity of Australian science in this important area of technology and could benefit the Australian economy by developing a novel commercial technology based on cutting-edge Australian research. Read moreRead less
Holographic Videography for Spatial Communication. This project is aimed at developing a true colour holographic video display in which a user or users may interact with completely synthetic objects.
This will be the first system of its kind, giving a user the illusion of real physical interaction with a completely holographic object. The illusion may be shared by many participants without the use of external aids. The project has the potential to improve productivity in many applications suc ....Holographic Videography for Spatial Communication. This project is aimed at developing a true colour holographic video display in which a user or users may interact with completely synthetic objects.
This will be the first system of its kind, giving a user the illusion of real physical interaction with a completely holographic object. The illusion may be shared by many participants without the use of external aids. The project has the potential to improve productivity in many applications such as geospatial information systems, x-ray inspection, and medical imaging, by giving a user a much more natural way of interacting with three dimensional data.Read moreRead less
Raman conversion in diamond: Next generation long and far infrared and terahertz lasers. Through the creation of practical and powerful long wave infrared and terahertz lasers, this project will enable more rapid progress in many fields of science and technology, and in important medical, environmental and safeguarding applications of national priority. Australia also stands to benefit economically via commercialization of diamond-based Raman lasers and instruments into the market. The project w ....Raman conversion in diamond: Next generation long and far infrared and terahertz lasers. Through the creation of practical and powerful long wave infrared and terahertz lasers, this project will enable more rapid progress in many fields of science and technology, and in important medical, environmental and safeguarding applications of national priority. Australia also stands to benefit economically via commercialization of diamond-based Raman lasers and instruments into the market. The project will produce highly-trained researchers and students in the theory, design and development of diamond sources, enhance Australia's existing strengths in waveguide optics and photonics, and place Australia at the forefront of research in long-wave infrared and terahertz science.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775692
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infa ....Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infancy and promise to be the challenging areas of research for the next two decades. The outcomes will strengthen Australia's position in world-class innovative scientific research. It also strengthens collaboration between major engineering institutions and medical experts for innovative research and training of researchers.Read moreRead less
Terahertz Metamaterials for Molecular Sensing. Metamaterials are fascinating new man-made structures that can manipulate beams of light in surprising ways; eg. metamaterials are being studied as 'cloaking devices' to render objects invisible. Our proposal aims for fundamental studies and improvement of metamaterials operating in the terahertz (T-ray) frequency regime. The outcome will be the exploitation of new metamaterial devices for high performance molecular sensors and electromagnetic filte ....Terahertz Metamaterials for Molecular Sensing. Metamaterials are fascinating new man-made structures that can manipulate beams of light in surprising ways; eg. metamaterials are being studied as 'cloaking devices' to render objects invisible. Our proposal aims for fundamental studies and improvement of metamaterials operating in the terahertz (T-ray) frequency regime. The outcome will be the exploitation of new metamaterial devices for high performance molecular sensors and electromagnetic filters operating at terahertz frequencies. Socioeconomic benefits to Australia include: (i) increased knowledge-base in metamaterials operating in the terahertz range; (ii) the underpinning of applications in biophotonics and communications; and (iii) commercialisation of novel terahertz devices.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561157
Funder
Australian Research Council
Funding Amount
$110,000.00
Summary
Multi-functional fluorescence microscopy laboratory. We have proposed a multipurpose fluorescent microscopy facility coupled to the RMIT microfabrication facility primarily for the study of the processes that make up lab-on-a-chip systems (the miniaturisation of a laboratory full of equipment to fit onto a credit card sized chip). Specifically the heart of the equipment, the variable wavelength pulsed laser coupled to an inverted microscope, will allow the study of temperature and fluid flow i ....Multi-functional fluorescence microscopy laboratory. We have proposed a multipurpose fluorescent microscopy facility coupled to the RMIT microfabrication facility primarily for the study of the processes that make up lab-on-a-chip systems (the miniaturisation of a laboratory full of equipment to fit onto a credit card sized chip). Specifically the heart of the equipment, the variable wavelength pulsed laser coupled to an inverted microscope, will allow the study of temperature and fluid flow in microchannels, the development of new electro-optic components, direct visualisation of electromagnetic radiation and its effect on cells, and the coupling of electrical and optical stimulation and sensing devices to microfluidic channels. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668322
Funder
Australian Research Council
Funding Amount
$147,000.00
Summary
Enhancing Australia's Terahertz Infrastructure. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are a few of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. Australia has active researchers in THz concentrated at several centres across the country, but they are hampered by their work ....Enhancing Australia's Terahertz Infrastructure. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are a few of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. Australia has active researchers in THz concentrated at several centres across the country, but they are hampered by their work by lack of access to state-of-the art experimental equipment. This project will provide that equipment and ensure the nation remains internationally competitive in this rapidly-developing field.Read moreRead less