Combined Effects of Surface Charge and Pore Size on Co-Enhanced Permeability and Ion Selectivity through RGO-OCNT Nanofiltration Membranes

Nanofiltration (NF) has received much attention for wastewater treatment and desalination. However, NF membranes generally suffer from the trade-off between permeability and selectivity. In this work, the coenhancement of permeability and ion selectivity was achieved through tuning the surface charg...

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Veröffentlicht in:	Environmental science & technology 2018-04, Vol.52 (8), p.4827-4834
Hauptverfasser:	Zhang, Haiguang, Quan, Xie, Chen, Shuo, Fan, Xinfei, Wei, Gaoliang, Yu, Hongtao
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon nanotubes Desalination Electrostatic properties Filtration Membrane permeability Membrane separation Membranes Nanofiltration Nanotechnology Nanotubes Permeability Pore size Porosity Rejection rate Selectivity Sodium chloride Sodium sulfate Surface charge Wastewater treatment Water treatment
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container_issue	8
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container_title	Environmental science & technology
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creator	Zhang, Haiguang Quan, Xie Chen, Shuo Fan, Xinfei Wei, Gaoliang Yu, Hongtao
description	Nanofiltration (NF) has received much attention for wastewater treatment and desalination. However, NF membranes generally suffer from the trade-off between permeability and selectivity. In this work, the coenhancement of permeability and ion selectivity was achieved through tuning the surface charge and pore size of oxidized carbon nanotube (OCNT) intercalated reduced graphene oxide (RGO) membranes. With the increase of OCNT content from 0 to 83%, the surface charge and the pore size were increased. The permeability increased to 10.6 L m–2 h–1 bar–1 and rejection rate reached 78.1% for Na2SO4 filtration at a transmembrane pressure of 2 bar, which were 11.8 and 1.3 times higher than those of pristine RGO membrane. The composite membrane also showed 11.1 times higher permeability (11.1 L m–2 h–1 bar–1) and 2.9 times higher rejection rate (35.3%) for NaCl filtration. The analyses based on Donnan steric pore model suggest that the increased permeability is attributed to the combined effects of enlarged pore size and increased surface charge, while the enhanced ion selectivity is mainly dependent on the electrostatic interaction between the membrane and target ions. This finding provides a new insight for the development of high-performance NF membranes in water treatment and desalination.
doi_str_mv	10.1021/acs.est.8b00515
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However, NF membranes generally suffer from the trade-off between permeability and selectivity. In this work, the coenhancement of permeability and ion selectivity was achieved through tuning the surface charge and pore size of oxidized carbon nanotube (OCNT) intercalated reduced graphene oxide (RGO) membranes. With the increase of OCNT content from 0 to 83%, the surface charge and the pore size were increased. The permeability increased to 10.6 L m–2 h–1 bar–1 and rejection rate reached 78.1% for Na2SO4 filtration at a transmembrane pressure of 2 bar, which were 11.8 and 1.3 times higher than those of pristine RGO membrane. The composite membrane also showed 11.1 times higher permeability (11.1 L m–2 h–1 bar–1) and 2.9 times higher rejection rate (35.3%) for NaCl filtration. The analyses based on Donnan steric pore model suggest that the increased permeability is attributed to the combined effects of enlarged pore size and increased surface charge, while the enhanced ion selectivity is mainly dependent on the electrostatic interaction between the membrane and target ions. 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subjects	Carbon nanotubes Desalination Electrostatic properties Filtration Membrane permeability Membrane separation Membranes Nanofiltration Nanotechnology Nanotubes Permeability Pore size Porosity Rejection rate Selectivity Sodium chloride Sodium sulfate Surface charge Wastewater treatment Water treatment
title	Combined Effects of Surface Charge and Pore Size on Co-Enhanced Permeability and Ion Selectivity through RGO-OCNT Nanofiltration Membranes
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