Advancing the chemistry of rare earths - an Australian resource. This project aims to advance knowledge of the synthesis, structures and reactivity of highly reactive rare earth metal-organic compounds. The project expects to build the knowledge and skills to underpin many developments of Australia's still under utilized rare earth resources to diversify from Chinese domination. The anticipated outcomes will be new synthetic and reaction chemistry including a demonstration of how size and electr ....Advancing the chemistry of rare earths - an Australian resource. This project aims to advance knowledge of the synthesis, structures and reactivity of highly reactive rare earth metal-organic compounds. The project expects to build the knowledge and skills to underpin many developments of Australia's still under utilized rare earth resources to diversify from Chinese domination. The anticipated outcomes will be new synthetic and reaction chemistry including a demonstration of how size and electronic factors can be used to modify and advance rare earth chemistry. This project should provide significant benefit such as are a better knowledge base in rare earth chemistry to underpin future applications in chemical manufacturing, new materials, catalysis and recycling.Read moreRead less
Investigating Energy Transfer Pathways in Lanthanoid Elements. This project aims to investigate fundamental aspects concerning the luminescent properties of compounds containing lanthanoid elements. These elements have extensive use in many high-tech applications, yet essential knowledge related to their properties is still quite limited. This project will elucidate in detail the origin of lanthanoid luminescence through a multidisciplinary approach combining synthetic chemistry and spectroscopy ....Investigating Energy Transfer Pathways in Lanthanoid Elements. This project aims to investigate fundamental aspects concerning the luminescent properties of compounds containing lanthanoid elements. These elements have extensive use in many high-tech applications, yet essential knowledge related to their properties is still quite limited. This project will elucidate in detail the origin of lanthanoid luminescence through a multidisciplinary approach combining synthetic chemistry and spectroscopy. The outcomes of this proposal will expand our limited knowledge in this field, underpinning the future development of novel materials for advanced applications. This will lead to significant economic benefit in Australia as new commercial applications relying on lanthanoid luminescence will be developed.Read moreRead less
Charge-Controlled Materials for Separations of Important Resources. This project aims to develop new porous materials that are capable of greater molecular discrimination than current technologies. This project expects to advance understanding of fundamental structure-activity relationships in these materials, and synthetic targets will be geared towards materials for industrially or environmentally important chemical separations associated with metal extraction. Expected outcomes of this projec ....Charge-Controlled Materials for Separations of Important Resources. This project aims to develop new porous materials that are capable of greater molecular discrimination than current technologies. This project expects to advance understanding of fundamental structure-activity relationships in these materials, and synthetic targets will be geared towards materials for industrially or environmentally important chemical separations associated with metal extraction. Expected outcomes of this project include new insights on the underlying chemistry for tailoring crystalline microporous materials towards select applications. This should provide significant benefits, such as future low-energy and efficient technologies for industrially important separation processes with reduced financial and environmental costs.Read moreRead less