Microporous Membranes Team
Winner: 2023 Materials Chemistry Horizon Prize: Stephanie L Kwolek Prize
For the development of ion-conducting polymers of intrinsic microporosity and applications as next-generation membranes in redox flow batteries for grid-scale energy storage.
Celebrate Microporous Membranes Team
A team of chemists and engineers from Imperial College London and the University of Edinburgh have collaborated on the development of a new generation of ion-conducting membranes based on polymers of intrinsic microporosity and demonstrated their exceptional performance in organic-based redox flow batteries (RFB) chemistries.
RFBs are a promising grid-scale energy storage technology for the integration of electricity generated from intermittent renewables into the power grid. Membranes are a crucial component in flow batteries, allowing the conduction of charge-carrier ions but minimizing the crossover of redox-active species, and they contribute up to 40% of the RFB capital cost. Commercial Nafion membranes are widely used, but they are expensive, poorly selective towards redox-active molecules and are produced by environmentally damaging processes that involve the use of poly-fluoroalkyl substances, known as forever chemicals.
Read moreWe’re thrilled our work to develop a new generation of ion-exchange membranes is being recognised. These microporous membranes can be used for a variety of applications, including in the storage of renewable energy, and so they have the potential to make a real positive impact in the fight against climate change.
Q&A
Leave congratulations on this page
Please use this space to congratulate the winner, but note that the 欧美AV will not respond to any comments or questions left on this page.
If you have a question or would like to get in touch with us, please contact us via this page.
Your comment will appear on this page after it is approved by moderators.
Fields marked with a '*' are mandatory.