Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective mole ....Carbon Molecular Sieve Membranes for Organic Solvent Separation. Directly addressing the pressing challenge of organic solvent separation faced by numerous industries, the project aims to develop molecular sieve membranes with outstanding selectivity and solvent tolerance by constructing zeolite-carbon mixed matrix membrane via incorporating zeolite nanosheets into carbon materials. The project expects to generate advanced knowledge of nanosheet synthesis, membrane fabrication and selective molecule transport. The membranes developed in the project have great potentials for improving the production capacity and sustainability of Australian industries, e.g., pharmaceutical manufacturing, bioethanol production and petroleum refining, providing significant economic and environmental benefits to Australia.Read moreRead less
Biodegradable magnesium alloy scaffolds for bone tissue engineering. This project aims to develop a class of porous, biocompatible, biofunctional and biodegradable magnesium alloy scaffolds with designed pore architecture and mechanical properties mimicking those of natural bone for tissue engineering applications. These magnesium alloy scaffolds will be biocompatible, able to bear loads, and will be gradually replaced by natural bone. The outcomes are expected to benefit the ageing population a ....Biodegradable magnesium alloy scaffolds for bone tissue engineering. This project aims to develop a class of porous, biocompatible, biofunctional and biodegradable magnesium alloy scaffolds with designed pore architecture and mechanical properties mimicking those of natural bone for tissue engineering applications. These magnesium alloy scaffolds will be biocompatible, able to bear loads, and will be gradually replaced by natural bone. The outcomes are expected to benefit the ageing population and people with bone abnormalities.Read moreRead less
Attentional asymmetries for navigation in healthy and clinical groups. This project plans to investigate how differences in attentional capacity between the left and right sides of the brain affect the ability to walk or manoeuvre vehicles between obstacles. To navigate our environment and avoid obstacles, we need to attend to stimuli that are important and ignore those that are not. Unfortunately, the brain’s attentional capacity is limited, which can result in errors and collisions. Using the ....Attentional asymmetries for navigation in healthy and clinical groups. This project plans to investigate how differences in attentional capacity between the left and right sides of the brain affect the ability to walk or manoeuvre vehicles between obstacles. To navigate our environment and avoid obstacles, we need to attend to stimuli that are important and ignore those that are not. Unfortunately, the brain’s attentional capacity is limited, which can result in errors and collisions. Using the techniques of cognitive neuroscience, the project aims to provide a better understanding of the cognitive and neural mechanisms that govern attention in an applied setting. It expects to identify the factors that exacerbate lapses in attention and collisions. The effect of everyday impediments such as mobile phones, alcohol and fatigue will be investigated together with means of minimising these attentional lapses and improving safety.Read moreRead less
Vapour phase detection of chemical warfare agents. This project aims to create luminescent plastic optoelectronic materials that can detect airborne chemical warfare agents, particularly nerve agents. Such agents are often odourless and invisible at lethal concentrations, so technology must detect and identify them before exposure. The intended outcomes are design rules for sensitive and selective materials that can be used in a handheld infield detector to sense chemical warfare agents based on ....Vapour phase detection of chemical warfare agents. This project aims to create luminescent plastic optoelectronic materials that can detect airborne chemical warfare agents, particularly nerve agents. Such agents are often odourless and invisible at lethal concentrations, so technology must detect and identify them before exposure. The intended outcomes are design rules for sensitive and selective materials that can be used in a handheld infield detector to sense chemical warfare agents based on the materials’ photophysical properties, and new analytical methods and sensing protocols. This research will be of interest to security agencies in Australia and internationally, and will better protect our military.Read moreRead less
Tailoring nanocomposites with controllable structural-property relationship. This project aims to process and fabricate graphene-based materials into useful devices. Understanding nanocomposite structure-property relationships are crucial to rapidly develop functional devices. This project will use graphene in the form of nanocomposites and precisely construct them in devices via three-dimensional printing. This will be achieved through the polymer chemistry and interfacial engineering of graphe ....Tailoring nanocomposites with controllable structural-property relationship. This project aims to process and fabricate graphene-based materials into useful devices. Understanding nanocomposite structure-property relationships are crucial to rapidly develop functional devices. This project will use graphene in the form of nanocomposites and precisely construct them in devices via three-dimensional printing. This will be achieved through the polymer chemistry and interfacial engineering of graphene for enhanced dispersibility and self-assembly in the targeted polymer matrix, thus affording maximum synergistic properties. The project expects to develop three-dimensional printing techniques and control and understand the effect of micro-patterning and nano-structuring on printed graphene nanocomposites.Read moreRead less
Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanopart ....Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanoparticles with well-defined light absorption properties will be fabricated. Superior selectivity will be achieved by matching the wavelength of the absorbed light with the required activation energy for oxidation/reduction. Successful outcomes will enable multi-analyte fingerprint identification by on-chip devices with applications ranging from portable medical diagnostics to national security.Read moreRead less
Every Day Matters: Reducing School Non-Attendance in Autistic Students. Autistic children miss one day a week of school, three times more than their peers. This significantly impacts their learning, wellbeing and later, their vocational outcomes. This project aims to identify the factors that put autistic children at increased risk of missing school and map the supports and interventions used to reduce school non-attendance. Expected outcomes include an autism-specific model of the how and why s ....Every Day Matters: Reducing School Non-Attendance in Autistic Students. Autistic children miss one day a week of school, three times more than their peers. This significantly impacts their learning, wellbeing and later, their vocational outcomes. This project aims to identify the factors that put autistic children at increased risk of missing school and map the supports and interventions used to reduce school non-attendance. Expected outcomes include an autism-specific model of the how and why school non-attendance is elevated for autistic students. It is anticipated that this model make the important step of enabling teachers and professionals to identify which autistic children are most at risk of absenteeism and select the best strategies to support a positive and beneficial return to school.Read moreRead less
Core-shell nanofibrous bio-based flame retardants with reinforcement function. This project aims to develop high-performance bio-based flame retardants (FRs) by designing a novel core-shell nanofibrous FR system, combining exceptional flame retardant qualities and mechanical reinforcement to enhance the safe use of thermoplastic products. Thermoplastic products are widespread in building, electric and electronic, automobile and packaging products, but their intrinsic flammability poses great fir ....Core-shell nanofibrous bio-based flame retardants with reinforcement function. This project aims to develop high-performance bio-based flame retardants (FRs) by designing a novel core-shell nanofibrous FR system, combining exceptional flame retardant qualities and mechanical reinforcement to enhance the safe use of thermoplastic products. Thermoplastic products are widespread in building, electric and electronic, automobile and packaging products, but their intrinsic flammability poses great fire threats to the society. Flame retardants are key to producing fire-resistant plastic products with a low fire hazard rating. The novel bio-based flame retardant material developed by this project seeks to combine enhanced flame retardant properties and mechanical reinforcement functions. The outcomes of the project will demonstrate eco-friendly flame retardants and high performance flame retardant thermoplastic products.Read moreRead less
To identify and to understand highly reactive surfaces for solar hydrogen production. This project aims to develop advanced technology to produce hydrogen - carbon-free fuel - from water with sunlight as the only energy input. Using clean energy to replace fossil fuels can help address the issues of energy supply and reduce carbon emissions, which is critically important for a sustainable Australia.
High performance multifunctional hierarchical structured membrane for water processing. The water processing industry is one of the most important economic sectors in Australia, though water scarcity is an economic limiting growth factor. The project targets at developing the next generation water processing technology affordable to residential consumption and applications in the industry and agriculture.