Stability studies of poly(vinyl chloride)-based polymer inclusion membranes containing Aliquat 336 as a carrier

Shigehiro Kagaya; Yuriko Ryokan; Robert W. Cattrall; Spas D. Kolev

doi:10.1016/j.seppur.2012.09.007

Stability studies of poly(vinyl chloride)-based polymer inclusion membranes containing Aliquat 336 as a carrier

Shigehiro Kagaya^*, Yuriko Ryokan, Robert W. Cattrall, Spas D. Kolev

^*Corresponding author for this work

Applied Chemistry

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

58 Scopus citations

Abstract

The stability of poly(vinyl chloride)-based polymer inclusion embranes (PIMs) containing 40(w/w)Aliquat 336 (R3MeNPCl-) and 60(w/w) PVC is studied in detail when these membranes are immersed in deionized water and in aqueous solutions containing various salts or hydrochloric acid. It is shown that the mass loss is suppressed in the salt solutions and that the effectiveness of the suppression follows the order: NaClO4 NaNO3 NaSCN NaCl - LiCl - HCl a2SO4 CH3COONa. It is also demonstrated that the distribution ratio of R3MeNPX- (where X- is Cl- or NO-3 ) between the PIM and the aqueous solution depends on the concentration of the "common anion" X- in the solution. However, in every case, the PIM eventually reaches equilibrium with the aqueous solution, and after that the PIM composition remains stable. The ion-exchange equilibrium constants between Cl- on one hand and NO-3 or SO2- 4 on the other are reported to be Kie-NO3 = 1.8 - 101 and Kie-SO4 = 1.5 - 10-2, respectively. The results reported in this study suggest that although PIMs are capable of losing some membrane liquid phase when exposed to aqueous solutions, this loss can be minimized or even eliminated by increasing the solution concentration of the common anion.

Original language	English
Pages (from-to)	69-75
Number of pages	7
Journal	Separation and Purification Technology
Volume	101
DOIs	https://doi.org/10.1016/j.seppur.2012.09.007
State	Published - 2012/11/13

Keywords

Aliquat 336
PIM anion exchange reaction
PIM mass change
PIM stability
Polymer inclusion membrane (PIM)

ASJC Scopus subject areas

Analytical Chemistry
Filtration and Separation

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10.1016/j.seppur.2012.09.007

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@article{014513096e95430eb4ea740869ad77f6,

title = "Stability studies of poly(vinyl chloride)-based polymer inclusion membranes containing Aliquat 336 as a carrier",

abstract = "The stability of poly(vinyl chloride)-based polymer inclusion embranes (PIMs) containing 40(w/w)Aliquat 336 (R3MeNPCl-) and 60(w/w) PVC is studied in detail when these membranes are immersed in deionized water and in aqueous solutions containing various salts or hydrochloric acid. It is shown that the mass loss is suppressed in the salt solutions and that the effectiveness of the suppression follows the order: NaClO4 NaNO3 NaSCN NaCl - LiCl - HCl a2SO4 CH3COONa. It is also demonstrated that the distribution ratio of R3MeNPX- (where X- is Cl- or NO-3 ) between the PIM and the aqueous solution depends on the concentration of the {"}common anion{"} X- in the solution. However, in every case, the PIM eventually reaches equilibrium with the aqueous solution, and after that the PIM composition remains stable. The ion-exchange equilibrium constants between Cl- on one hand and NO-3 or SO2- 4 on the other are reported to be Kie-NO3 = 1.8 - 101 and Kie-SO4 = 1.5 - 10-2, respectively. The results reported in this study suggest that although PIMs are capable of losing some membrane liquid phase when exposed to aqueous solutions, this loss can be minimized or even eliminated by increasing the solution concentration of the common anion.",

keywords = "Aliquat 336, PIM anion exchange reaction, PIM mass change, PIM stability, Polymer inclusion membrane (PIM)",

author = "Shigehiro Kagaya and Yuriko Ryokan and Cattrall, {Robert W.} and Kolev, {Spas D.}",

note = "Funding Information: One of the authors (S. Kagaya) is grateful for the award of the Excellent Young Researchers Overseas Visit Program (No. 21-4068) from the Japan Society for the Promotion of Science.",

year = "2012",

month = nov,

day = "13",

doi = "10.1016/j.seppur.2012.09.007",

language = "英語",

volume = "101",

pages = "69--75",

journal = "Separation and Purification Technology",

issn = "1383-5866",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Stability studies of poly(vinyl chloride)-based polymer inclusion membranes containing Aliquat 336 as a carrier

AU - Kagaya, Shigehiro

AU - Ryokan, Yuriko

AU - Cattrall, Robert W.

AU - Kolev, Spas D.

N1 - Funding Information: One of the authors (S. Kagaya) is grateful for the award of the Excellent Young Researchers Overseas Visit Program (No. 21-4068) from the Japan Society for the Promotion of Science.

PY - 2012/11/13

Y1 - 2012/11/13

N2 - The stability of poly(vinyl chloride)-based polymer inclusion embranes (PIMs) containing 40(w/w)Aliquat 336 (R3MeNPCl-) and 60(w/w) PVC is studied in detail when these membranes are immersed in deionized water and in aqueous solutions containing various salts or hydrochloric acid. It is shown that the mass loss is suppressed in the salt solutions and that the effectiveness of the suppression follows the order: NaClO4 NaNO3 NaSCN NaCl - LiCl - HCl a2SO4 CH3COONa. It is also demonstrated that the distribution ratio of R3MeNPX- (where X- is Cl- or NO-3 ) between the PIM and the aqueous solution depends on the concentration of the "common anion" X- in the solution. However, in every case, the PIM eventually reaches equilibrium with the aqueous solution, and after that the PIM composition remains stable. The ion-exchange equilibrium constants between Cl- on one hand and NO-3 or SO2- 4 on the other are reported to be Kie-NO3 = 1.8 - 101 and Kie-SO4 = 1.5 - 10-2, respectively. The results reported in this study suggest that although PIMs are capable of losing some membrane liquid phase when exposed to aqueous solutions, this loss can be minimized or even eliminated by increasing the solution concentration of the common anion.

AB - The stability of poly(vinyl chloride)-based polymer inclusion embranes (PIMs) containing 40(w/w)Aliquat 336 (R3MeNPCl-) and 60(w/w) PVC is studied in detail when these membranes are immersed in deionized water and in aqueous solutions containing various salts or hydrochloric acid. It is shown that the mass loss is suppressed in the salt solutions and that the effectiveness of the suppression follows the order: NaClO4 NaNO3 NaSCN NaCl - LiCl - HCl a2SO4 CH3COONa. It is also demonstrated that the distribution ratio of R3MeNPX- (where X- is Cl- or NO-3 ) between the PIM and the aqueous solution depends on the concentration of the "common anion" X- in the solution. However, in every case, the PIM eventually reaches equilibrium with the aqueous solution, and after that the PIM composition remains stable. The ion-exchange equilibrium constants between Cl- on one hand and NO-3 or SO2- 4 on the other are reported to be Kie-NO3 = 1.8 - 101 and Kie-SO4 = 1.5 - 10-2, respectively. The results reported in this study suggest that although PIMs are capable of losing some membrane liquid phase when exposed to aqueous solutions, this loss can be minimized or even eliminated by increasing the solution concentration of the common anion.

KW - Aliquat 336

KW - PIM anion exchange reaction

KW - PIM mass change

KW - PIM stability

KW - Polymer inclusion membrane (PIM)

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U2 - 10.1016/j.seppur.2012.09.007

DO - 10.1016/j.seppur.2012.09.007

M3 - 学術論文

AN - SCOPUS:84867235648

SN - 1383-5866

VL - 101

SP - 69

EP - 75

JO - Separation and Purification Technology

JF - Separation and Purification Technology

ER -

Stability studies of poly(vinyl chloride)-based polymer inclusion membranes containing Aliquat 336 as a carrier

Abstract

Keywords

ASJC Scopus subject areas

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