Zwitterion-based electrolytes for advanced energy technologies. This research aims to develop a new class of electrolyte that is safer, non-flammable and designed to enable excellent performance of high energy batteries made with either sodium or lithium. Through the synthesis of new electrolyte structures that are designed to improve stability and electrochemical properties, and using a range of analysis techniques to understand the material properties, the project aims to solve some of the saf ....Zwitterion-based electrolytes for advanced energy technologies. This research aims to develop a new class of electrolyte that is safer, non-flammable and designed to enable excellent performance of high energy batteries made with either sodium or lithium. Through the synthesis of new electrolyte structures that are designed to improve stability and electrochemical properties, and using a range of analysis techniques to understand the material properties, the project aims to solve some of the safety and performance problems that plague existing electrolytes. Expected benefits include new functional energy materials for safer, more reliable energy storage technologies, plus research training, collaborations and materials development capabilities to help position Australia as a global leader in this field.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100480
Funder
Australian Research Council
Funding Amount
$445,237.00
Summary
Electrolyte design for high-performance, sustainable sodium batteries. This project aims to develop sustainable high-performance sodium batteries by investigating new non-flammable and safe electrolyte chemistries. The project will generate knowledge in materials chemistry for battery electrolytes that will underpin improvements in battery technology and help to move society towards a zero-carbon economy. The outcomes will provide materials suitable for prototyping reliable, safe and sustainable ....Electrolyte design for high-performance, sustainable sodium batteries. This project aims to develop sustainable high-performance sodium batteries by investigating new non-flammable and safe electrolyte chemistries. The project will generate knowledge in materials chemistry for battery electrolytes that will underpin improvements in battery technology and help to move society towards a zero-carbon economy. The outcomes will provide materials suitable for prototyping reliable, safe and sustainable batteries in Australia and enhance research collaborations with local and international industry partners. These advances will contribute to reliable, affordable, and sustainable energy storage systems, positioning Australia at the forefront of advanced battery research.Read moreRead less