Hybrid radiofrequency/optical catheter for effective atrial fibrillation ablation. This research project aims to advance engineering knowledge by applying an innovative, fibre-optics-based discrete optical coherence tomography to technology used for atrial fibrillation catheter ablation. RadioFrequency catheter-based ablation is far superior to cardiac drug therapy for atrial fibrillation patients. RadioFrequency catheters are not equipped with real-time lesion formation monitoring means, which ....Hybrid radiofrequency/optical catheter for effective atrial fibrillation ablation. This research project aims to advance engineering knowledge by applying an innovative, fibre-optics-based discrete optical coherence tomography to technology used for atrial fibrillation catheter ablation. RadioFrequency catheter-based ablation is far superior to cardiac drug therapy for atrial fibrillation patients. RadioFrequency catheters are not equipped with real-time lesion formation monitoring means, which enable the assessment of continuity-transmurality and prevent extra-cardiac complications, such as steam pops. Optical Coherece Tomography enables non-invasive, microscopic lesion formation assessment in real time during atrial fibrillation ablation procedures. The expected outcomes of this project are to develop a new hybrid fibre-optic/RadioFrequency catheter system and user-friendly driving software that will enable cardiac electrophysiologists to perform three key tasks not previously available.Read moreRead less
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.
Combined Terahertz Imaging and Optical Coherence Tomography. This project aims to exploit the synergies between terahertz imaging and optical coherence tomography. These novel imaging modalities will be combined into a single multi-modality technique which will have application in numerous industry sectors like manufacturing, non-destructive testing, pharmaceutical and medicine. The intended outcome of the project is to create an internationally leading position for Australia in cutting-edge res ....Combined Terahertz Imaging and Optical Coherence Tomography. This project aims to exploit the synergies between terahertz imaging and optical coherence tomography. These novel imaging modalities will be combined into a single multi-modality technique which will have application in numerous industry sectors like manufacturing, non-destructive testing, pharmaceutical and medicine. The intended outcome of the project is to create an internationally leading position for Australia in cutting-edge research in optical and terahertz imaging. This innovative, fundamental research will expand Australia’s research capacity in imaging with wide ranging applications. The anticipated goal of the project is to build a prototype imaging system with industry partners ready for the next step to commercialisation. Read moreRead less
Integrated on-chip force and displacement sensors for high-speed atomic force microscopy of ultimate sensitivity. This project aims to develop next generation atomic force microscopy systems based on a novel interferometric method for on-chip force and displacement sensing. The proposed sensitivity improvement of two orders of magnitude over the present state-of-the-art will provide a disruptive innovation for various present and future nanotechnologies.
Towards a unified technology platform for sensing in liquids. Towards a unified technology platform for sensing in liquids. This project aims to use a new sensing platform for hydrocarbon monitoring in water to evolve optical on-chip position sensing of suspended micro-structures. Microelectromechanical systems dominate the world in sensing technology; they are common in smartphone, automotive, aerospace, and military applications. However, this multibillion dollar industry has failed to make ch ....Towards a unified technology platform for sensing in liquids. Towards a unified technology platform for sensing in liquids. This project aims to use a new sensing platform for hydrocarbon monitoring in water to evolve optical on-chip position sensing of suspended micro-structures. Microelectromechanical systems dominate the world in sensing technology; they are common in smartphone, automotive, aerospace, and military applications. However, this multibillion dollar industry has failed to make chem/bio sensing profitable, mostly due to the absence of a robust and compact read-out technology for sensing in liquids. This project is expected to lead to a unified parallel sensing platform of ultimate sensitivity delivering aqueous sensing for wide ranging applications and markets.Read moreRead less
Interrogating protein hydration by terahertz time-domain spectroscopy. Interrogating protein hydration by terahertz time-domain spectroscopy. This project aims to develop advanced terahertz time-domain spectroscopy (THz-TDS) techniques to understand how a protein’s interaction with excipients in solution can alter the hydration layers around them and how this affects properties such as viscosity and stability. THz-TDS can detect overlapping extended hydration layers around proteins, revealing ne ....Interrogating protein hydration by terahertz time-domain spectroscopy. Interrogating protein hydration by terahertz time-domain spectroscopy. This project aims to develop advanced terahertz time-domain spectroscopy (THz-TDS) techniques to understand how a protein’s interaction with excipients in solution can alter the hydration layers around them and how this affects properties such as viscosity and stability. THz-TDS can detect overlapping extended hydration layers around proteins, revealing new knowledge in protein-protein interactions and protein behaviour in an aqueous environment. The intended outcome is to use THz-TDS to better understand how proteins such as monoclonal antibodies interact in high concentration solutions, and in doing so make better medicines.Read moreRead less
Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outco ....Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outcomes include new knowledge on controlling porous structures and tailoring properties to targeted applications. This project, by laying the groundwork for a new generation of bio-based materials, will benefit the Australian advanced manufacturing sector, and enhance Australia's standing in materials science and engineering.Read moreRead less
High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist ....High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist Australia to capitalise on new technology and to become a significant player in the next ICT boom. This project will put Australia at the cutting edge of high-speed interconnect technology and will generate income through licensing the technology and the establishment of spin-off opportunities in both Australia and off-shore.Read moreRead less
Extending Leadership and Learning: Improving the effectiveness of new learning technology for culture change and improved regional business performance. This research project explores the complex relationships between new technology and learning, and the subsequent impact on organisational change and business effectiveness. The study will examine the use of video-conferencing and on-line training packages in the regional locations of a major bank, in order to determine more effective configurati ....Extending Leadership and Learning: Improving the effectiveness of new learning technology for culture change and improved regional business performance. This research project explores the complex relationships between new technology and learning, and the subsequent impact on organisational change and business effectiveness. The study will examine the use of video-conferencing and on-line training packages in the regional locations of a major bank, in order to determine more effective configurations of learning architecture that support organisational culture change and impact on business performance. The organisation has a strategic commitment to cultural change towards leadership and learning. This research intends to examine how new learning technologies can more effectively impact on achieving such cultural change and improved regional equity.Read moreRead less
Defect engineering in molecular beam epitaxy-grown mercury cadmium telluride. This project aims to develop high quality mercury cadmium telluride (HgCdTe) materials with lower defect density and lower background doping levels. This will enable future, high-performance, lower-cost infrared sensors with the unique features of higher yield, larger array size and higher operating temperature. The project will generate new science and technologies on defect engineering in the epitaxial growth of sem ....Defect engineering in molecular beam epitaxy-grown mercury cadmium telluride. This project aims to develop high quality mercury cadmium telluride (HgCdTe) materials with lower defect density and lower background doping levels. This will enable future, high-performance, lower-cost infrared sensors with the unique features of higher yield, larger array size and higher operating temperature. The project will generate new science and technologies on defect engineering in the epitaxial growth of semiconducting HgCdTe on cadmium zinc telluride (CdZnTe) substrates. This will contribute to the development of core Australian industry sectors such as defence, environmental monitoring, medical imaging, earth remote sensing, mining, and oil and gas.Read moreRead less