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
The Geopolitics of Automation. Automation threatens economic disruption. The Project aims to understand how competition between China and the US to develop automated technologies shapes the future of work. Focusing on warehouses linked to Alibaba and Amazon in Australia, Germany and Malaysia, the Project asks how automation changes labour conditions and modifies geopolitical tensions. Digital simulations of automated technologies in warehouses key to the China-US rivalry will seek to augment kno ....The Geopolitics of Automation. Automation threatens economic disruption. The Project aims to understand how competition between China and the US to develop automated technologies shapes the future of work. Focusing on warehouses linked to Alibaba and Amazon in Australia, Germany and Malaysia, the Project asks how automation changes labour conditions and modifies geopolitical tensions. Digital simulations of automated technologies in warehouses key to the China-US rivalry will seek to augment knowledge about the governance of labour and territory. Intended outcomes include insights into how automation is a geopolitical and economic concern for policy makers. Benefits should offer strategies for organisations negotiating automation’s effects on workforces.Read moreRead less
Seeing is believing: Microscopy-capable single-molecule bioelectronics. This project aims to create new biophysical tools for single-molecule sensing by advancing the state-of-the-art in nanoscale bioelectronic devices. The goal is to generate novel bioelectronic devices optimised for fabrication on microscope coverslip (170 micron glass) for compatibility with new low-cost platforms for advanced biological microscopy. Expected outcomes include the first organic electrochemical transistors inter ....Seeing is believing: Microscopy-capable single-molecule bioelectronics. This project aims to create new biophysical tools for single-molecule sensing by advancing the state-of-the-art in nanoscale bioelectronic devices. The goal is to generate novel bioelectronic devices optimised for fabrication on microscope coverslip (170 micron glass) for compatibility with new low-cost platforms for advanced biological microscopy. Expected outcomes include the first organic electrochemical transistors interfaced to constrained area lipid bilayers for studying membrane proteins at single-molecule level and nanoscale transistors for electrostatically detecting motile microtubules in in-vitro molecular motor assays for biocomputation. The intended benefit is innovation in capabilities and manufacturing of bioelectronics.Read moreRead less
Using immersive virtual reality to enhance students’ science visualisation. This project aims to investigate the potential of advanced visualisation technology, immersive virtual reality, as a collaborative learning environment to support students to explore their ideas and learn a core chemistry concept, molecular structures and functions. Incorporating both data analytics and qualitative video analysis, the project will establish a deep understanding of how students learn about the molecular w ....Using immersive virtual reality to enhance students’ science visualisation. This project aims to investigate the potential of advanced visualisation technology, immersive virtual reality, as a collaborative learning environment to support students to explore their ideas and learn a core chemistry concept, molecular structures and functions. Incorporating both data analytics and qualitative video analysis, the project will establish a deep understanding of how students learn about the molecular world within an immersive virtual reality environment in relation to the learners’ experience, chemistry content, visual representations, learning tasks, and design features. The project will recommend evidence-driven design considerations for learning resources development and further educational research with advanced technologies.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
Using acoustic retroreflection in architecture to improve rooms for speech. This project aims to discover how a novel form of acoustic treatment can improve acoustics for speech in rooms such as classrooms and open-plan offices. The project will generate new knowledge on the theory, design, and effects of acoustically retroreflective surfaces in room acoustics. Expected outcomes include solutions for effective acoustic retroreflectors, knowledge on how retroreflection influences people’s voice r ....Using acoustic retroreflection in architecture to improve rooms for speech. This project aims to discover how a novel form of acoustic treatment can improve acoustics for speech in rooms such as classrooms and open-plan offices. The project will generate new knowledge on the theory, design, and effects of acoustically retroreflective surfaces in room acoustics. Expected outcomes include solutions for effective acoustic retroreflectors, knowledge on how retroreflection influences people’s voice regulation and sound quality perception, and guidelines and simulation tools for integrating retroreflective treatments to improve speaking comfort. This should provide significant benefits including opportunities to resolve seemingly intractable design dilemmas in the acoustics of education and workplace environments.Read moreRead less
Relationship of retinal directionality to human retinal anatomy variations. This project aims to improve measurement of retinal directionality, which is the reduction in brightness when a light beam’s entry into the human eye is shifted from the centre to the edge of the pupil. This influences retinal image quality and can be used to measure changes in shape of the peripheral eye. This project will apply advanced technologies in holography, and heads-up displays to explore how retinal directiona ....Relationship of retinal directionality to human retinal anatomy variations. This project aims to improve measurement of retinal directionality, which is the reduction in brightness when a light beam’s entry into the human eye is shifted from the centre to the edge of the pupil. This influences retinal image quality and can be used to measure changes in shape of the peripheral eye. This project will apply advanced technologies in holography, and heads-up displays to explore how retinal directionality changes during accommodation (focusing). The expected outcome is improved understanding of retinal stretching changes during focusing. The benefit is that the project will lead to advancements in retinal imaging.Read moreRead less
Modelling and characterisation of biomass materials for pneumatic transport. This project aims to develop a particle scale microprobe to capture the transient dynamics of biomass compaction, dilation and associated airflow for pneumatic conveying and potentially beyond. Low velocity, dense phase pneumatic transport presents the ideal method for transporting delicate biomass feedstocks. However, without the fundamental understanding of the compactive and dilative response of biomass ensembles, pn ....Modelling and characterisation of biomass materials for pneumatic transport. This project aims to develop a particle scale microprobe to capture the transient dynamics of biomass compaction, dilation and associated airflow for pneumatic conveying and potentially beyond. Low velocity, dense phase pneumatic transport presents the ideal method for transporting delicate biomass feedstocks. However, without the fundamental understanding of the compactive and dilative response of biomass ensembles, pneumatic conveyors will be over-designed and energy intensive. This project will enable accurate measurement of the motion, inertia and force information at the particle scale, to produce more accurate design protocols for dense phase biomass pneumatic transport.Read moreRead less
Bioinspired Flexible Haptic Memory Materials for Artificial Sensory Nerves. This project aims to develop next generation haptic memory materials for the applications of artificial sensory nerves, which can precisely detect, process and respond to mechanical stimuli. The project expects to achieve this aim by mimicking the functions of biological haptic memory system and integrating highly sensitive tactile sensors and synaptic devices into artificial sensory nerves. The anticipated outcomes wil ....Bioinspired Flexible Haptic Memory Materials for Artificial Sensory Nerves. This project aims to develop next generation haptic memory materials for the applications of artificial sensory nerves, which can precisely detect, process and respond to mechanical stimuli. The project expects to achieve this aim by mimicking the functions of biological haptic memory system and integrating highly sensitive tactile sensors and synaptic devices into artificial sensory nerves. The anticipated outcomes will be new electronic materials for a wide range of end uses in next-generation flexible sensor technologies including healthcare monitoring devices, intelligent soft robotic systems and neural prosthetics.Read moreRead less