Journal
ELECTROCHIMICA ACTA
Volume 426, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2022.140770
Keywords
Ionophore; Ion-selective membrane; Scanning electrochemical microscopy; Over-limiting
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Funding
- Quick Faculty Innovation Fellowship of MIT
- Draper Scholars Program
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Selective ion extraction is important for resource recovery systems, and carrier-based membranes are used to remove specific ions from brine and waste streams. However, these membranes have inconsistent outcomes in their practical applications. To study the non-ideal behaviors of target-ion selective membranes, researchers have introduced a direct, real-time measurement system and applied it in carrier-based membrane systems.
Selective ion extraction is a vital element of many resource recovery systems. Carrier-based membranes offer the ability to remove specific, targeted ions from brine and waste streams, but these materials have delivered inconsistent outcomes in their active transport applications. To study non-ideal behaviors of target-ion selective membranes, we introduce a direct, real-time system for selectively measuring concentrations within electro-membrane boundary layers. In a carrier-based membrane system, we applied our method to monitor adverse, current-limiting behaviors. During its operation, we detected loss of transport selectivity and counter-ion discharge. It provided sufficient evidence to identify the mechanism underlying these adverse, over-limiting effects-the internal concentration polarization of free-carrier. Our method may raise new prospects for direct experimental characterization of nonlinear transport phenomena in electro-membrane systems.
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