Sustainable polymer construction materials from agricultural waste. Agricultural waste is the world's most abundant petroleum alternative for transformation into environmentally friendly bio-based materials for the construction sectors. Bringing together complimentary research expertise between academia and industry, this project aims to address this opportunity and develop technologies that economically convert agricultural wastes to crude-oils to produce bio-based resins, adhesives and polyure ....Sustainable polymer construction materials from agricultural waste. Agricultural waste is the world's most abundant petroleum alternative for transformation into environmentally friendly bio-based materials for the construction sectors. Bringing together complimentary research expertise between academia and industry, this project aims to address this opportunity and develop technologies that economically convert agricultural wastes to crude-oils to produce bio-based resins, adhesives and polyurethane. This project expects to produce ready-to-use, total replacements for petroleum-based construction materials. This should provide significant benefits including supporting Australian manufacturing by delivering technologies for sustainable and rapid adoption in the construction, resin and coating industries. Read moreRead less
Understanding production and application of alpha emitting radionuclides. This project aims to develop new materials to improve the efficiency of production of radionuclides, as well as tools to improve our understanding of isotope decay products to to improve efficiency of delivery. High performance polymers will be evaluated to establish optimal design properties for enhanced radionuclide collection from novel generators of isotopic lead (Pb-212), and new methods will be developed to improve u ....Understanding production and application of alpha emitting radionuclides. This project aims to develop new materials to improve the efficiency of production of radionuclides, as well as tools to improve our understanding of isotope decay products to to improve efficiency of delivery. High performance polymers will be evaluated to establish optimal design properties for enhanced radionuclide collection from novel generators of isotopic lead (Pb-212), and new methods will be developed to improve understanding of isotope product stability. Anticipated outcomes will provide greater production and utility of radioisotopes in radiopharmaceuticals, while building strong ties with partner AdvanCell Isotopes. This could improve manufacture of radionuclides, expanding capability and applications in radiopharmaceuticals.Read moreRead less
Porous Two-Dimensional Inorganic Semiconductors for Optoelectronic Devices. This project aims to develop new highly porous two-dimensional (2D) inorganic semiconductors for advanced photodetectors. The key concept is to combine electrochemical deposition and post-growth plasma treatment to tune the optoelectronic properties of these materials. This project expects to generate new insights into the correlations between different pore parameters and plasma treatment conditions for 2D inorganic sem ....Porous Two-Dimensional Inorganic Semiconductors for Optoelectronic Devices. This project aims to develop new highly porous two-dimensional (2D) inorganic semiconductors for advanced photodetectors. The key concept is to combine electrochemical deposition and post-growth plasma treatment to tune the optoelectronic properties of these materials. This project expects to generate new insights into the correlations between different pore parameters and plasma treatment conditions for 2D inorganic semiconductors and new advanced materials with high sensitivity and broad spectral range for photodetectors. The project is expected to provide significant benefits by advancing Australia’s capability in the manufacturing of inorganic semiconductors and photodetectors for application in optical communications and sensors.Read moreRead less