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An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspe ....An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspect ratio, and uniformly dispersed in a polymer matrix. This novel approach is environmentally benign and cost-effective since no alkyl ammonium surfactants are required. The resultant nanocomposites will exhibit excellent barrier properties, high thermal stability, environmental durability and superior mechanical properties. These qualities make them very attractive for many applications in the automotive and packaging industries.Read moreRead less
NANOSCALE NETWORKS OF ORGANIC POLYMER/C60 FULLERENE BLENDS FOR HIGH EFFICIENCY SOLAR CELLS. Recent demonstrations of increased efficiencies in polymer-fullerene blend plastic films provide the prospect of low cost photovoltaic elements with the potential for widespread application. Further progress with these materials is strongly indicated. We will characterise these materials at the nanoscale to make further improvements in film morphology and employ our expertise in experimental investigation ....NANOSCALE NETWORKS OF ORGANIC POLYMER/C60 FULLERENE BLENDS FOR HIGH EFFICIENCY SOLAR CELLS. Recent demonstrations of increased efficiencies in polymer-fullerene blend plastic films provide the prospect of low cost photovoltaic elements with the potential for widespread application. Further progress with these materials is strongly indicated. We will characterise these materials at the nanoscale to make further improvements in film morphology and employ our expertise in experimental investigation of transport properties to gain a more complete understanding of the electronic and photonic processes underlying photovoltaic efficiency. Australia is ideally situated geographically and has a strong tradition of inventive engineering from which we can benefit and capitalise significantly on further improvements in the materials to be investigated.Read moreRead less
Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australi ....Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australia~{!/~}s R&D. They will also provide business opportunities to develop niche markets for these new and high-value added materials on a large scale in Australia so as to maximise return and create jobs. Read moreRead less