Development of nonvolatile fast proton-transport materials. There are many problems with existing proton-transport materials for emerging fuel cell applications such as electric vehicles. A high proton conductivity and high thermal stability are some of the requirements for fuel cell electrolytes. The aims of this project are to develop nonvolatile proton-transport matrices based on zwitterionic liquids with various acids, develop polymer gel materials based on these, and characterize these ne ....Development of nonvolatile fast proton-transport materials. There are many problems with existing proton-transport materials for emerging fuel cell applications such as electric vehicles. A high proton conductivity and high thermal stability are some of the requirements for fuel cell electrolytes. The aims of this project are to develop nonvolatile proton-transport matrices based on zwitterionic liquids with various acids, develop polymer gel materials based on these, and characterize these new proton-transport materials by analyzing ionic conductivity, viscosity, thermal behaviors, and their interrelationships.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100223
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
Advanced X-ray diffraction facility for high energy and extreme conditions. X-ray powder diffraction is a powerful technique for determining the structure of matter at the atomic scale. This project will establish a new Australian capability for X-ray powder diffraction under extreme conditions that emulate real harsh service environments for advanced functional materials.