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Interactions, phase behavior and self-assembly of colloidal nanorods: Establishing design rules for creating new nano-structured materials. This project aims to apply new computational methods developed by the applicant to characterise the interactions between colloidal nanorods and their self-assembly in the presence of interfaces and directional interactions. While nanoparticles can currently be made in a staggering array of shapes, patterns and materials, organising such objects into extended ....Interactions, phase behavior and self-assembly of colloidal nanorods: Establishing design rules for creating new nano-structured materials. This project aims to apply new computational methods developed by the applicant to characterise the interactions between colloidal nanorods and their self-assembly in the presence of interfaces and directional interactions. While nanoparticles can currently be made in a staggering array of shapes, patterns and materials, organising such objects into extended structures that could revolutionise technology remains a challenge. The expected outcome is a robust strategy for making monolayer films of rods aligned perpendicular to a variety of interfaces for the fabrication of solar cells, microfiltration membranes and biosensors.Read moreRead less
Green working liquids for an energy efficient future. Ionic liquids (ILs) have enormous potential as advanced materials due to their unusual properties. This project will develop ILs for use as energy efficient lubricants, electrochemical solvents and heat transfer fluids. These technologies will decrease Australia's energy consumption, reduce carbon dioxide emissions, and stimulate economic growth.
Organic-inorganic hybrid electronic devices and logic circuits. This project will create the next generation of opto-electronic devices and logic circuits using solution-based organic-inorganic hybrid materials with the potential to be extremely cheap, recyclable, and mechanically flexible. This project aims to position Australia as a leader in printed electronics.
Tuning adhesion through polymer chain entanglement. Adhesion in materials relies on the ability to tune molecular scale interactions. This project unlocks knowledge to transfer to industry for the intelligent use of polymer additives at a surface. Outcomes will connect fields including ceramic and minerals processing, waste water treatment and for printing and coatings.
Bulk nanobubbles: from fundamentals to biomedical applications. This project aims to extend optical and acoustic tools to detect bulk nanobubbles, control their size-distributions, and understand how they interact with biomolecules. Liquids containing nanobubbles have numerous applications particularly in biomedicine. Using interdisciplinary approaches, this project expects to gain convincing evidence of the existence of bulk nanobubbles. This is expected to advance existing fundamental knowle ....Bulk nanobubbles: from fundamentals to biomedical applications. This project aims to extend optical and acoustic tools to detect bulk nanobubbles, control their size-distributions, and understand how they interact with biomolecules. Liquids containing nanobubbles have numerous applications particularly in biomedicine. Using interdisciplinary approaches, this project expects to gain convincing evidence of the existence of bulk nanobubbles. This is expected to advance existing fundamental knowledge at the forefront of soft matter research, and give Australia a decisive technological head start in a competitive and lucrative industry through patentable technology.Read moreRead less