A coupled finite volume method for viscoelastic flow problems on highly-skewed unstructured meshes: a computational rheology revolution. Commercial tools are unavailable for 21st century industry to analyse complex flow processes involving viscoelastic materials. Using fabrication of microstructured polymer optical fibre as a key case study, a coupled finite volume methodology holds the key for the next generation of computational rheology simulators.
Supramolecular assembly of chromophores:the effects of nucleation kinetics on their molecular packing, fibre structure and light harvesting efficiency. This project aims to reveal the effects of nucleation kinetics of chromophores on their molecular packing, fibre structure and energy transfer efficiency, which are significant to the design of low cost and lightweight materials for high efficiency solar energy harvesting. The knowledge to be acquired addresses the bottleneck governing the effici ....Supramolecular assembly of chromophores:the effects of nucleation kinetics on their molecular packing, fibre structure and light harvesting efficiency. This project aims to reveal the effects of nucleation kinetics of chromophores on their molecular packing, fibre structure and energy transfer efficiency, which are significant to the design of low cost and lightweight materials for high efficiency solar energy harvesting. The knowledge to be acquired addresses the bottleneck governing the efficiency of a class of novel materials that mimic the natural light harvesting systems. It will bring about health, economic and environmental benefits to Australia. This project will foster multidisciplinary collaborations between world class research centres.Read moreRead less
It’s a fine line: analytical and experimental optimisation of drawing metal-in-dielectric nanowire composites to manufacture engineered metamaterials. Exploitation of ‘smart materials’ is a major opportunity for 21st century Australian manufacturing if cost effective bulk production is available. Metamaterials are ideal building blocks for such new-age materials, being dielectric/metal composites structured on sub-wavelength dimensions, offering diverse properties unavailable in natural material ....It’s a fine line: analytical and experimental optimisation of drawing metal-in-dielectric nanowire composites to manufacture engineered metamaterials. Exploitation of ‘smart materials’ is a major opportunity for 21st century Australian manufacturing if cost effective bulk production is available. Metamaterials are ideal building blocks for such new-age materials, being dielectric/metal composites structured on sub-wavelength dimensions, offering diverse properties unavailable in natural materials. Fibre drawing is a proven mass-production technology for translating the structure of a (macroscale) preform to microscale and has recently been applied it to fabricate microscale metamaterials. By overcoming fundamental instabilities, this project will transform the technique to manufacture nanoscale structured composites and demonstrate practical metamaterial-based optical devices with unique properties.Read moreRead less