Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775562
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
The Melbourne Nanofabrication Facility. Australia is desperately short of facilities for actual fabrication, prototyping and construction of advanced micromechanical and nanoscale systems. This is impeding both academic researchers and industrial developers in the materials, optics and biotechnological industries. The proposed instrument would complete the development of Australia's newest high resolution microscopy centre and enable a wide range of users to image, measure, build and design comp ....The Melbourne Nanofabrication Facility. Australia is desperately short of facilities for actual fabrication, prototyping and construction of advanced micromechanical and nanoscale systems. This is impeding both academic researchers and industrial developers in the materials, optics and biotechnological industries. The proposed instrument would complete the development of Australia's newest high resolution microscopy centre and enable a wide range of users to image, measure, build and design complex nanostructures at the atomic level and upwards. Read moreRead less
Advanced microelectronic transistor structures for novel biosensor technology. This international, interdisciplinary team aims to develop an electronic biosensor technology that will significantly advance biomedical research to combat human disease. This is likely to have a major social impact on the community, improve health outcomes and generate substantial economic potential for the pharmaceutical industry. The principal benefit of this research will be the fabrication of electronic devices b ....Advanced microelectronic transistor structures for novel biosensor technology. This international, interdisciplinary team aims to develop an electronic biosensor technology that will significantly advance biomedical research to combat human disease. This is likely to have a major social impact on the community, improve health outcomes and generate substantial economic potential for the pharmaceutical industry. The principal benefit of this research will be the fabrication of electronic devices based on advanced materials, significantly reducing the time, the biological material used and the complexity of assessing human cell function. In addition to improving health through novel biosensor techniques, this technology is expected to lead to the creation of commercially important intellectual property.Read moreRead less
A neuromorphic binaural hearing sensor. A neuromorphic binaural hearing sensor will be created. The system includes two cochleae and targeted processing pathways in the auditory brainstem that aid in solving the Cocktail Party Problem: i.e. foreground-background sound separation, sound localisation, and sound recognition. The VLSI circuits will enable real-time implementation of complex auditory models. As we develop our VLSI binaural ear, we will experiment with afferent (feed forward) and ....A neuromorphic binaural hearing sensor. A neuromorphic binaural hearing sensor will be created. The system includes two cochleae and targeted processing pathways in the auditory brainstem that aid in solving the Cocktail Party Problem: i.e. foreground-background sound separation, sound localisation, and sound recognition. The VLSI circuits will enable real-time implementation of complex auditory models. As we develop our VLSI binaural ear, we will experiment with afferent (feed forward) and efferent (feed back) auditory signal processing that is similar to real auditory systems and that demonstrate efficient, effective, and low-power signal processing algorithms for binaural (two-sensor) hearing systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989615
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Melbourne Platform for Surface Characterisation of Structured Materials. The Australian economy is gradually expanding its manufacturing base through the development of the nanotechnology and biotechnology sectors. This will lead to production of a more diverse range of elaborately transformed goods. A key contributor to these export opportunities will be the nanotechnology sector since at the present time no country has a real nanotechnology based economy and there are many niche markets availa ....Melbourne Platform for Surface Characterisation of Structured Materials. The Australian economy is gradually expanding its manufacturing base through the development of the nanotechnology and biotechnology sectors. This will lead to production of a more diverse range of elaborately transformed goods. A key contributor to these export opportunities will be the nanotechnology sector since at the present time no country has a real nanotechnology based economy and there are many niche markets available for smaller countries such as Australia. This proposal helps to build quality control and characterisation infrastructure that will facilitate prototyping and design of nanoscale devices and sensors for next generation manufacturing.Read moreRead less
Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems ....Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems (NEMS), integrated with electronics and nano optics and cooled into the quantum regime. Quantum electromechanical systems (QEMS) enable new sensors with ultimate sensitivity limited only by the Heisenberg uncertainty principle, with applications in photonics, metrology and bio molecular imaging.Read moreRead less