Materials World Network Synthesis and Processing Optoelectronic Materials in Supercritical and Condensed Phase Carbon Dioxide. The Australian partner will have leveraged access to the skill base and facilities of the Cornell Center for Materials Research, and the NSF MRSEC that leads the world in frontier technologies in advanced materials. The partnership will deliver to Australia progress in national priority goals "Frontier Technologies" and new manufacturing technologies in environmentally ....Materials World Network Synthesis and Processing Optoelectronic Materials in Supercritical and Condensed Phase Carbon Dioxide. The Australian partner will have leveraged access to the skill base and facilities of the Cornell Center for Materials Research, and the NSF MRSEC that leads the world in frontier technologies in advanced materials. The partnership will deliver to Australia progress in national priority goals "Frontier Technologies" and new manufacturing technologies in environmentally friendly media that will enhance the national research priority "An Environmentally Sustainable Australia". New transferable skills will be acquired by the participants in the project. Technology transfer could result in the formation of spinoff companies to exploite the intellectual property arising in the project.Read moreRead less
Energy transforming polymers: from single molecules to devices. Climate control and the rapidly increasing demand for energy is driving the search for alternative sustainable energy sources. Flexible plastics will be a primary component of the new generation of solar harvesting and energy conversion materials. The objective of this project is to gain an understanding of the way polymers interact with light and can convert absorbed solar energy into electrical power and other useful forms of ene ....Energy transforming polymers: from single molecules to devices. Climate control and the rapidly increasing demand for energy is driving the search for alternative sustainable energy sources. Flexible plastics will be a primary component of the new generation of solar harvesting and energy conversion materials. The objective of this project is to gain an understanding of the way polymers interact with light and can convert absorbed solar energy into electrical power and other useful forms of energy. The outcomes of the project will allow the improved design of plastics for applications in solar energy conversion.Read moreRead less
A Novel Approach for Color and Degradation Control in Post Consumer Polyethylene Terephthalate During Recycling. Discoloration is a critical problem in the manufacturing of post-consumer polyethylene terephthalate (PET) polymeric products in which optical clarity requirement is high. The inherent weakness of the PET demands highly efficient stabilisation of this polymer. The project aims to understand and eliminate the occurrence of such discoloration and improve the quality of the Visy product ....A Novel Approach for Color and Degradation Control in Post Consumer Polyethylene Terephthalate During Recycling. Discoloration is a critical problem in the manufacturing of post-consumer polyethylene terephthalate (PET) polymeric products in which optical clarity requirement is high. The inherent weakness of the PET demands highly efficient stabilisation of this polymer. The project aims to understand and eliminate the occurrence of such discoloration and improve the quality of the Visy products. New multifunctional additives will be developed, which when added to PET during processing, will not only quench the discoloration reaction but also yield high quality products with excellent optical properties. This project is of substantial strategic importance to the Australian/global polymer processing and recycling industries.
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