Continuous ion separation via electrokinetic-driven ion migration path differentiation: practical application to lithium extraction from brines
We propose a new force-based ion separation method utilizing electrokinetic manipulation of ion migrations for lithium extraction from brines. The proposed system shows consistent lithium extraction performance regardless of brine conditions.
Journal of Materials Chemistry A
07 March 2022, Issue 9,
Page 4459 to 5002
Continuous ion separation via electrokinetic-driven ion migration path differentiation: practical application to lithium extraction from brines
We propose a new force-based ion separation method utilizing electrokinetic manipulation of ion migrations for lithium extraction from brines. The proposed system shows consistent lithium extraction performance regardless of brine conditions.
Minsoo Lee
Woochul Jung
Hyukjin J Kwon
Geunbae Lim
Journal of Materials Chemistry A Home-Materials for energy and sustainability<br/><br/>Editor-in-chief: Anders Hagfeldt<br/>Impact factor: 12.732<br/>Time to first decision (with reviews): 29 days (rsc.org)
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