Search Results - "Taylor, Rachel F."

Reducing Chloride Ion Permeation during Seawater Electrolysis Using Double-Polyamide Thin-Film Composite Membranes by Zhou, Xuechen, Taylor, Rachel F., Shi, Le, Xie, Chenghan, Bian, Bin, Logan, Bruce E.

“…Low-cost polyamide thin-film composite membranes are being explored as alternatives to expensive cation exchange membranes for seawater electrolysis. However,…”
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Relative Insignificance of Polyamide Layer Selectivity for Seawater Electrolysis Applications by Zhou, Xuechen, Shi, Le, Taylor, Rachel F., Xie, Chenghan, Bian, Bin, Picioreanu, Cristian, Logan, Bruce E.

“…Low-cost polyamide thin-film composite (TFC) membranes are being explored as alternatives to cation exchange membranes for seawater electrolysis. An optimal…”
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Modeling Ion Transport across Thin-Film Composite Membranes During Saltwater Electrolysis by Taylor, Rachel F., Zhou, Xuechen, Xie, Chenghan, Martinez, Fernan, Zhang, Xinran, Blankert, Bastiaan, Picioreanu, Cristian, Logan, Bruce E.

“…Affordable thin-film composite (TFC) membranes are a potential alternative to more expensive ion exchange membranes in saltwater electrolyzers used for…”
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Thin-Film Composite Membranes for Hydrogen Evolution with a Saline Catholyte Water Feed by Shi, Le, Zhou, Xuechen, Taylor, Rachel F., Xie, Chenghan, Bian, Bin, Hall, Derek M., Rossi, Ruggero, Hickner, Michael A., Gorski, Christopher A., Logan, Bruce E.

“…Hydrogen gas evolution using an impure or saline water feed is a promising strategy to reduce overall energy consumption and investment costs for on-site,…”
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