Solvent nanofiltration through high permeability glassy polymers: Effect of polymer and solute nature

Sergey Tsarkov; Valery Khotimskiy; Peter M. Budd; Vladimir Volkov; Julia Kukushkina; Alexey Volkov

doi:10.1016/j.memsci.2012.07.026

Solvent nanofiltration through high permeability glassy polymers: Effect of polymer and solute nature

Sergey Tsarkov
, Valery Khotimskiy
, Peter M. Budd
, Vladimir Volkov
, Julia Kukushkina
, Alexey Volkov

Research output: Contribution to journal › Article › peer-review

Abstract

The effect of solute nature on the retention performance of membrane materials based on PTMSP, PMP and PIM-1 has been investigated in ethanol media. Using the examples of PMP and PIM-1, it was shown that membrane swelling could enhance the solvent transport across the membrane, regardless of the initial gas permeability. All polymers show the same level and order of retention for low molecular weight dyes (350Da) regardless of the difference in polymer nature; in particular, negative retention of the neutral dye Solvent Blue 35 was observed for PTMSP, PMP and PIM-1: -17%, -11% and -4%, respectively. This retention behavior was explained by a "blocking effect" due to high dye-membrane interaction and comparable size of the solute (V calc=685Å 3) and available free volume elements within the polymer (5-12Å). An increase of dye retention is attributed to a decrease of solute-membrane interaction; for example, PIM-1: Solvent Blue 35 (K=1107; {δ PIM-1-δ solute{=4.2)

Original language	English
Pages (from-to)	65-72
Number of pages	7
Journal	Journal of Membrane Science
Volume	423-424
DOIs	https://doi.org/10.1016/j.memsci.2012.07.026
Publication status	Published - 15 Dec 2012

Keywords

Effect of solute
Organic solvent nanofiltration
PIM-1
PMP
PTMSP

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10.1016/j.memsci.2012.07.026

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@article{e34f591de9d345d69dd8d401df202cca,

title = "Solvent nanofiltration through high permeability glassy polymers: Effect of polymer and solute nature",

abstract = "The effect of solute nature on the retention performance of membrane materials based on PTMSP, PMP and PIM-1 has been investigated in ethanol media. Using the examples of PMP and PIM-1, it was shown that membrane swelling could enhance the solvent transport across the membrane, regardless of the initial gas permeability. All polymers show the same level and order of retention for low molecular weight dyes (350Da) regardless of the difference in polymer nature; in particular, negative retention of the neutral dye Solvent Blue 35 was observed for PTMSP, PMP and PIM-1: -17\%, -11\% and -4\%, respectively. This retention behavior was explained by a {"}blocking effect{"} due to high dye-membrane interaction and comparable size of the solute (V calc=685{\AA} 3) and available free volume elements within the polymer (5-12{\AA}). An increase of dye retention is attributed to a decrease of solute-membrane interaction; for example, PIM-1: Solvent Blue 35 (K=1107; \{δ PIM-1-δ solute\{=4.2)",

keywords = "Effect of solute, Organic solvent nanofiltration, PIM-1, PMP, PTMSP",

author = "Sergey Tsarkov and Valery Khotimskiy and Budd, \{Peter M.\} and Vladimir Volkov and Julia Kukushkina and Alexey Volkov",

year = "2012",

month = dec,

day = "15",

doi = "10.1016/j.memsci.2012.07.026",

language = "English",

volume = "423-424",

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journal = "Journal of Membrane Science",

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T1 - Solvent nanofiltration through high permeability glassy polymers: Effect of polymer and solute nature

AU - Tsarkov, Sergey

AU - Khotimskiy, Valery

AU - Budd, Peter M.

AU - Volkov, Vladimir

AU - Kukushkina, Julia

AU - Volkov, Alexey

PY - 2012/12/15

Y1 - 2012/12/15

N2 - The effect of solute nature on the retention performance of membrane materials based on PTMSP, PMP and PIM-1 has been investigated in ethanol media. Using the examples of PMP and PIM-1, it was shown that membrane swelling could enhance the solvent transport across the membrane, regardless of the initial gas permeability. All polymers show the same level and order of retention for low molecular weight dyes (350Da) regardless of the difference in polymer nature; in particular, negative retention of the neutral dye Solvent Blue 35 was observed for PTMSP, PMP and PIM-1: -17%, -11% and -4%, respectively. This retention behavior was explained by a "blocking effect" due to high dye-membrane interaction and comparable size of the solute (V calc=685Å 3) and available free volume elements within the polymer (5-12Å). An increase of dye retention is attributed to a decrease of solute-membrane interaction; for example, PIM-1: Solvent Blue 35 (K=1107; {δ PIM-1-δ solute{=4.2)

AB - The effect of solute nature on the retention performance of membrane materials based on PTMSP, PMP and PIM-1 has been investigated in ethanol media. Using the examples of PMP and PIM-1, it was shown that membrane swelling could enhance the solvent transport across the membrane, regardless of the initial gas permeability. All polymers show the same level and order of retention for low molecular weight dyes (350Da) regardless of the difference in polymer nature; in particular, negative retention of the neutral dye Solvent Blue 35 was observed for PTMSP, PMP and PIM-1: -17%, -11% and -4%, respectively. This retention behavior was explained by a "blocking effect" due to high dye-membrane interaction and comparable size of the solute (V calc=685Å 3) and available free volume elements within the polymer (5-12Å). An increase of dye retention is attributed to a decrease of solute-membrane interaction; for example, PIM-1: Solvent Blue 35 (K=1107; {δ PIM-1-δ solute{=4.2)

KW - Effect of solute

KW - Organic solvent nanofiltration

KW - PIM-1

KW - PMP

KW - PTMSP

U2 - 10.1016/j.memsci.2012.07.026

DO - 10.1016/j.memsci.2012.07.026

M3 - Article

SN - 1873-3123

VL - 423-424

SP - 65

EP - 72

JO - Journal of Membrane Science

JF - Journal of Membrane Science

ER -

Solvent nanofiltration through high permeability glassy polymers: Effect of polymer and solute nature

Abstract

Keywords

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