Low viscosity, high ionic conductivity ionic liquids for lithium metal batteries. Current consumer electronic devices rely on lithium-ion batteries to provide a high energy density power source. There are growing safety concerns about the electrolytes in these devices after recent incidents involving fires in mobile phones. Recent advances in ionic liquids (ILs) have seen the development of new electrolytes for such devices, with enhanced physical properties that offer major safety advantages. H ....Low viscosity, high ionic conductivity ionic liquids for lithium metal batteries. Current consumer electronic devices rely on lithium-ion batteries to provide a high energy density power source. There are growing safety concerns about the electrolytes in these devices after recent incidents involving fires in mobile phones. Recent advances in ionic liquids (ILs) have seen the development of new electrolytes for such devices, with enhanced physical properties that offer major safety advantages. However, the viscosity of these materials currently limit their capabilities. New IL materials to be developed in this project will pave the way for the development of safer devices and new sustainable energy industries in Australia.Read moreRead less
Better Batteries via Controlling the Properties of Electrolytic Manganese Dioxide. Physical properties of electrolytic manganese dioxide (EMD) such as crystal structure, morphology and electrochemical characteristics determine its usefulness in alkaline batteries. However, the relationship between these parameters is not well understood. This APAI project will attempt to address these shortcomings in the current understanding of the production process by focussing on the relationships between fu ....Better Batteries via Controlling the Properties of Electrolytic Manganese Dioxide. Physical properties of electrolytic manganese dioxide (EMD) such as crystal structure, morphology and electrochemical characteristics determine its usefulness in alkaline batteries. However, the relationship between these parameters is not well understood. This APAI project will attempt to address these shortcomings in the current understanding of the production process by focussing on the relationships between fundamental physical, chemical and electrochemical properties of EMD. The results will be of benefit in optimising the process and ensuring that EMD with superior performance can be consistently produced.Read moreRead less
Development of Reactive Ionic Liquids for Future Industrial Applications in Australia. This project creates the opportunity for a consortium of leading scientists to develop reactive ionic liquids concepts to support Australian Chemistry. The aim is to radically improve materials and processes within the manufacturing, mining and building industries by paradigm shift in chemical methodology. This will be achieved through cooperation between the major Australian chemical company, Orica, and CSIRO ....Development of Reactive Ionic Liquids for Future Industrial Applications in Australia. This project creates the opportunity for a consortium of leading scientists to develop reactive ionic liquids concepts to support Australian Chemistry. The aim is to radically improve materials and processes within the manufacturing, mining and building industries by paradigm shift in chemical methodology. This will be achieved through cooperation between the major Australian chemical company, Orica, and CSIRO - CMIT, and two leading Australian Universities, Melbourne and Monash. The majority of the manufacturing and mining industries, which will benefit from this activity and as a result become more internationally competitive, are based in regional Victoria, NSW, Queensland, South Australia, and Western Australia. Read moreRead less