A novel ion-selective membrane for efficient lithium recovery . This project aims to fabricate a novel membrane that display selective lithium recovery from brine in a renewable energy driven electrochemical membrane technology. The fabrication of lithium selective membranes embedded with nanomaterials and metal organic framework will create new knowledge on the dynamics of ion-size sieving and accelerating lithium transportation. This project will provide significant environmental and economic ....A novel ion-selective membrane for efficient lithium recovery . This project aims to fabricate a novel membrane that display selective lithium recovery from brine in a renewable energy driven electrochemical membrane technology. The fabrication of lithium selective membranes embedded with nanomaterials and metal organic framework will create new knowledge on the dynamics of ion-size sieving and accelerating lithium transportation. This project will provide significant environmental and economic benefit by establishing a rapid and chemical free method to recover lithium affordably and orders of magnitude more efficiently than hard rock extraction. This project will bring significant commercial benefits to Australian mining industry, desalination and water treatment sectors.Read moreRead less
Interfacial engineering of multilayered metal organic framework membranes . Metal-organic frameworks are a popular class of microporous materials with tunable structural properties and functionalities. This project aims to investigate the designed synthesis of thin, hierarchically structured films of this material on membranes, which displays extraordinary ion selectivity and ion rectification properties. A better understanding of the interfacial properties will be gained through advanced charac ....Interfacial engineering of multilayered metal organic framework membranes . Metal-organic frameworks are a popular class of microporous materials with tunable structural properties and functionalities. This project aims to investigate the designed synthesis of thin, hierarchically structured films of this material on membranes, which displays extraordinary ion selectivity and ion rectification properties. A better understanding of the interfacial properties will be gained through advanced characterisation, and with proper design and tuning of the film, will ultimately lead to the development of high performing ion-selective membranes that will be applied for energy storage and separation applications. This project is expected to benefit Australia’s renewable energy and resource sectors.Read moreRead less