Liquid-phase water isotope separation using graphene-oxide membranes

Ching, Karin; Baker, Andy; Tanaka, Ryoji; Zhao, Tingwen; Su, Zhen; Ruoff, Rodney S.; Zhao, Chuan; Chen, Xianjue

Title: Liquid-phase water isotope separation using graphene-oxide membranes
Creator: Ching, Karin; Baker, Andy; Tanaka, Ryoji; Zhao, Tingwen; Su, Zhen; Ruoff, Rodney S.; Zhao, Chuan; Chen, Xianjue
Relation: Carbon Vol. 186, Issue January 2022, p. 344-354
Publisher Link: http://dx.doi.org/10.1016/j.carbon.2021.10.009
Publisher: Elsevier
Resource Type: journal article
Date: 2021
Description: We report pressure-driven liquid-phase isotope separation (dead-end filtration) to enrich D and 18O in natural water using graphene oxide (G-O) and UV-reduced graphene oxide (UV-rG-O) membranes. The isotope diffusivity (molecular diffusion and adsorption separation) was found to be responsible for isotope separation. Adsorption separation is the dominant mechanism for improvements in D and 18O enrichment via increased G-O loading that leads to the increased number of adsorption sites (epoxy and hydroxyl groups on G-O), and higher degrees of reduction of G-O that result in the narrowing of the nanochannels which decreases the portion of water molecules experiencing molecular diffusion. The best performing membrane was “UV-rG-O” made by exposing a G-O membrane to 24 h UV irradiation from one side, showing enrichment of D of 0.5% for D/H and 18O of 0.08% for 18O/16O in a single-stage experiment, without contribution from the vapor pressure isotope effect. This work improves the understanding of the mechanisms for graphene-based membrane separation of D and 18O enriched water.
Subject: graphene oxide; membranes; water isotopes; filtration; isotope effect; diffusion
Identifier: http://hdl.handle.net/1959.13/1459879
Identifier: uon:45805
Identifier: ISSN:0008-6223
Language: eng
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