Nanoarchitectured multifunctional porous superparamagnetic nanoparticles. This project aims to develop a method for the direct detection of biomarkers based on a new class of highly porous superparamagnetic nanoparticles with peroxidase-like activity. The particles will be used as dispersible capture agents for isolating specific targets in biological samples, and electrocatalytic nanozymes for naked-eye evaluation and electrochemical detection. The project is expected to develop simple, low-cos ....Nanoarchitectured multifunctional porous superparamagnetic nanoparticles. This project aims to develop a method for the direct detection of biomarkers based on a new class of highly porous superparamagnetic nanoparticles with peroxidase-like activity. The particles will be used as dispersible capture agents for isolating specific targets in biological samples, and electrocatalytic nanozymes for naked-eye evaluation and electrochemical detection. The project is expected to develop simple, low-cost, portable devices for the analysis of exosomes and exosomal miRNA in biological samples. The future development of this technology into diagnostic devices will improve patient outcomes by enabling earlier disease diagnosis and improved monitoring of treatment.Read moreRead less
Bubble Dynamics in Fine Droplets: Behaviour and Control. The principal vision in this project is to gain a deeper understanding of the formation, growth and collapse of bubbles within micron-size droplets and, in doing so, provide the technical underpinning necessary to advance the development of a range of emerging technologies in the light alloys manufacturing, atomisation, non-invasive medical therapy, drug delivery, and nucleation / solidification in thermal energy storage systems. Expected ....Bubble Dynamics in Fine Droplets: Behaviour and Control. The principal vision in this project is to gain a deeper understanding of the formation, growth and collapse of bubbles within micron-size droplets and, in doing so, provide the technical underpinning necessary to advance the development of a range of emerging technologies in the light alloys manufacturing, atomisation, non-invasive medical therapy, drug delivery, and nucleation / solidification in thermal energy storage systems. Expected outcomes include new experimental evidence and validated mathematical models for the analysis of bubbles encapsulated by fine droplets. The outcomes should significantly enhance Australia’s research and innovation capacity in the field of confined space bubble dynamics and related industrial applications. Read moreRead less
Cell Membrane Coated Photonic Crystal to study Receptor-Ligand Interactions. The current gold-standard assays for examining receptor-ligand interactions require expensive and costly fluorescent or radioactive labels or proteomics processes. This project aims to develop Artificial Photonic Cells by directly coating photonic crystals with cell membranes. The Artificial Photonic Cells retain the protein receptors in their native cell membrane environment and allow for label-free monitoring of the r ....Cell Membrane Coated Photonic Crystal to study Receptor-Ligand Interactions. The current gold-standard assays for examining receptor-ligand interactions require expensive and costly fluorescent or radioactive labels or proteomics processes. This project aims to develop Artificial Photonic Cells by directly coating photonic crystals with cell membranes. The Artificial Photonic Cells retain the protein receptors in their native cell membrane environment and allow for label-free monitoring of the receptor-ligand interactions using inexpensive miniature spectrometers - radically transforming these assays. This would generate fundamental and applied knowledge of materials sciences, photonic, and biointerfaces for label-free, ultra-sensitive, and selective assays to enable future drug and diagnostics target discovery. Read moreRead less
Coordinating Innovation in Knowledge-Based Multinational Organisations. Integration into global supply chains is one of the fundamental challenges for manufacturing companies in Australia. This project seeks to identify the optimal design for coordinating innovation in globally-dispersed organisations. It will analyse three mechanisms for transferring knowledge within organisations: hierarchies, communities of practice, and social networks. Outcomes will include a new multilevel statistical netw ....Coordinating Innovation in Knowledge-Based Multinational Organisations. Integration into global supply chains is one of the fundamental challenges for manufacturing companies in Australia. This project seeks to identify the optimal design for coordinating innovation in globally-dispersed organisations. It will analyse three mechanisms for transferring knowledge within organisations: hierarchies, communities of practice, and social networks. Outcomes will include a new multilevel statistical network modelling framework and organisational designs to overcome barriers to knowledge-transfer, such as language, culture and distance. The project will collect and apply data from Boeing Global Technology, the international research arm of The Boeing Company, a world leading business with major subsidiaries in Australia.Read moreRead less
Low-Cost Multiple Pencil-Beam Lens Antenna System. The project aims to develop a new multiple pencil beam antenna system, taking advantage of CIs' preliminary inventions in lens antennas, 3D printed antennas and arrays, and antenna feeding networks. A dual-polarised antenna array architecture will enhance the sensing quality and resolution of our partner organisation's cleaning robot. It will enable the robot to recognise human presence and movement in low-light conditions for rapid and safe dis ....Low-Cost Multiple Pencil-Beam Lens Antenna System. The project aims to develop a new multiple pencil beam antenna system, taking advantage of CIs' preliminary inventions in lens antennas, 3D printed antennas and arrays, and antenna feeding networks. A dual-polarised antenna array architecture will enhance the sensing quality and resolution of our partner organisation's cleaning robot. It will enable the robot to recognise human presence and movement in low-light conditions for rapid and safe disinfection of public spaces. The project will have an immediate socio-economic impact on local businesses and communities. The outcomes of the project will create safer public environments for people living and working in Australia, and boost economic recovery in the post-pandemic period.Read moreRead less
Nano optoelectronic coupling: towards an ultrasensitive sensing technology. This project aims to elucidate ultrasensitive mechanical and thermal sensing effects that are tens of thousands of times better than conventional sensing technologies. This is achieved through controlling interactions between photons and electrons at the interface of two semiconductors. Outcomes of this project include scientific breakthroughs that are expected to revolutionise and disrupt the established sensing technol ....Nano optoelectronic coupling: towards an ultrasensitive sensing technology. This project aims to elucidate ultrasensitive mechanical and thermal sensing effects that are tens of thousands of times better than conventional sensing technologies. This is achieved through controlling interactions between photons and electrons at the interface of two semiconductors. Outcomes of this project include scientific breakthroughs that are expected to revolutionise and disrupt the established sensing technologies. Microscopic low power mechanical and thermal sensors with ultra-high sensitivity have great value to enhance safety, security, and productivity of industry and society. The project is expected to generate new knowledge and place Australia as the world leader in physical sensing and create a new industry.Read moreRead less
Biologically Inspired Binaural Coupling for Selective Machine Hearing. This project aims to investigate biologically-inspired binaural coupling models in the context of the deep learning paradigm by formulating desirable higher level auditory structures as neural network sub-systems. This project expects to generate new knowledge for developing the next generation of robust speech processing systems that are capable of mimicking the selecting listening ability of humans when faced with realistic ....Biologically Inspired Binaural Coupling for Selective Machine Hearing. This project aims to investigate biologically-inspired binaural coupling models in the context of the deep learning paradigm by formulating desirable higher level auditory structures as neural network sub-systems. This project expects to generate new knowledge for developing the next generation of robust speech processing systems that are capable of mimicking the selecting listening ability of humans when faced with realistic noisy speech signals and the ‘cocktail party problem’ using innovative binaural feedback systems. This work should provide significant benefits, including improved voice biometrics and selective auditory attention capabilities in machines.Read moreRead less
Drone-based Communications for High-speed Beyond 5G Wireless Systems. Drone-based communication is a revolutionised wireless paradigm for the development of highly flexible and cost-effective beyond fifth-generation (B5G) wireless systems. This project aims to develop novel communication theories and practical techniques to realise truly high-speed and ubiquitous communication required in B5G networks. The project intends to deliver resource allocation designs, robust transceiver designs and a s ....Drone-based Communications for High-speed Beyond 5G Wireless Systems. Drone-based communication is a revolutionised wireless paradigm for the development of highly flexible and cost-effective beyond fifth-generation (B5G) wireless systems. This project aims to develop novel communication theories and practical techniques to realise truly high-speed and ubiquitous communication required in B5G networks. The project intends to deliver resource allocation designs, robust transceiver designs and a system-level analysis as the foundations and tools to unlock the potential of this promising paradigm. The outcomes of this project are expected to fundamentally advance the knowledge of drone-based communications with significant economic values to service providers and benefits to mobile users over the world.Read moreRead less
Highly Efficient Nanomotors for Autonomous Cell Recognition and Isolation. This project aims to develop next-generation self-driven nanomotors capable of long-range motion with highly controlled directionality for cell recognition, transportation and separation in complex biological environments, to allow autonomous and seamless cell sorting with high accuracy. The anticipated goal of this project is to advance the field of nanotechnology and advanced manufacturing with potential to support new ....Highly Efficient Nanomotors for Autonomous Cell Recognition and Isolation. This project aims to develop next-generation self-driven nanomotors capable of long-range motion with highly controlled directionality for cell recognition, transportation and separation in complex biological environments, to allow autonomous and seamless cell sorting with high accuracy. The anticipated goal of this project is to advance the field of nanotechnology and advanced manufacturing with potential to support new applications and to value-add Australia’s advanced manufacturing industry, presenting new opportunities for Australian MedTech industries with innovative, disruptive technologies to address its unique needs and to claim Australia’s position within the competitive global market.Read moreRead less
In-vivo functional imaging of cone photoreceptors and ganglion cell axons. Can we project a movie on a human retina, and measure the response of photoreceptor cells and connected nerve tissue? This project aims to investigate a new method for visualization of the quickest responses in human cone photoreceptors and nerve cells after a visible stimulus. Expected outcomes of this project include a better understanding of the origins of responses to a stimulus and how cells in the retina communicate ....In-vivo functional imaging of cone photoreceptors and ganglion cell axons. Can we project a movie on a human retina, and measure the response of photoreceptor cells and connected nerve tissue? This project aims to investigate a new method for visualization of the quickest responses in human cone photoreceptors and nerve cells after a visible stimulus. Expected outcomes of this project include a better understanding of the origins of responses to a stimulus and how cells in the retina communicate. The scientific results will be helpful in a better understanding of the development of vision in the infant eye, to study peripheral vision in elite athletes and to quantify performance of virtual reality equipment for the military. The IP on the technology can be licensed or used for start-up company.Read moreRead less