
Qilei Song
@qileisong
Associate Professor in Chem Eng @imperialcollege, porous materials, membrane technologies, energy conversion & storage, Climate Tech. @ERC_Research StG.
ID: 1496878093
09-06-2013 23:23:18
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More exciting news - We now have confirmed our list of Invited Speakers for the 8th Annual UK Porous Materials Conference (UKPorMat) in Birmingham 3-4 June. Oral abstracts deadline is now 21st March (this Friday!). More information: ukpormat.com RSC Porous Materials Interest Group


🔋 From salt lakes to batteries: Imperial researcher finds a cleaner lithium extraction alternative! Salt-water lakes could be a valuable source of lithium for batteries, if only it could be extracted efficiently. A new membrane technology developed by Qilei Song's team at



Delighted to share our view in Nature Chemical Engineering on the development of ion exchange membranes with high charge density by Jovan Kamcev. nature.com/articles/s4428… These membranes enable efficient brine concentration. Link to the News & Views article for free: rdcu.be/ehkUA In


Finished your PhD in 2024? 🎓 The RSC Energy Sector@RSCEnergySector @RSCEnergySector Interest Group PhD Thesis Award is now open for applications, with a cash prize of £1,000! Details of how to apply can be found here: rsc.org/membership-and… Deadline: 1st June 2025 📅


🚨Online now! A News & Views from Dingchang Yang & Qilei Song highlights a recent paper from Kamcev and co-workers on anion exchange membranes with ultrahigh charge density! Qilei Song Link ($): nature.com/articles/s4428… ➡️Free read PDF: rdcu.be/eh2PC


🚨A Research Highlight from Mo Qiao covers a Nature Water Article on modified PIM-based membranes that enhance the selective sieving of Li+ over Mg2+ in electrodialysis processes. Qilei Song Original paper (🔓): nature.com/articles/s4422… Highlight ($): nature.com/articles/s4428…

Pleased to share one latest paper on recycling of poly(lactic acid) in ChemSusChem. Led by Dr Hui Luo Hui Luo, and collaboration with Magda Titirici. Efficient recovery of lactic acid achieved by bipolar membrane electrodialysis developed by Dingchang Yang.