Design of Advanced Geopolymeric Materials Based on Nanostructural Characterisation and Modelling. Geopolymers are a class of advanced aluminosilicate materials primarily utilised in the construction and building products industries, where their application as a replacement for ordinary Portland cement provides the potential for highly significant Greenhouse gas emission reductions. Australian research has led to the increasingly widespread commercial use of this technology in a range of areas. D ....Design of Advanced Geopolymeric Materials Based on Nanostructural Characterisation and Modelling. Geopolymers are a class of advanced aluminosilicate materials primarily utilised in the construction and building products industries, where their application as a replacement for ordinary Portland cement provides the potential for highly significant Greenhouse gas emission reductions. Australian research has led to the increasingly widespread commercial use of this technology in a range of areas. Development of a full understanding of the exact chemical structure of geopolymers is essential to finding and developing new applications for these materials as well as maximising their use in known applications.Read moreRead less
Geopolymers for nuclear applications. With the pressing need for the reduction of Greenhouse emissions from electricity generation in Australia, one option that must be seriously considered is nuclear energy. However, the issue of waste storage is a highly significant one that must be addressed. Geopolymeric cements are expected to perform much better than traditional Portland cements in nuclear applications, both for solidification of radioactive wastes and also for the construction of undergro ....Geopolymers for nuclear applications. With the pressing need for the reduction of Greenhouse emissions from electricity generation in Australia, one option that must be seriously considered is nuclear energy. However, the issue of waste storage is a highly significant one that must be addressed. Geopolymeric cements are expected to perform much better than traditional Portland cements in nuclear applications, both for solidification of radioactive wastes and also for the construction of underground waste storage bunkers. This project will use Australia's strong existing knowledge in geopolymers research, and apply it to the development of materials to fill the need for environmentally secure waste storage solutions.Read moreRead less
Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunitie ....Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunities for improved performance in these areas.
Many existing coating technologies rely on procedures using organic solvents, which are hazardous to human health and the environment. The proposed research will develop coatings that are made and used in solutions of water only, thereby minimizing pollution production.
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