Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment

Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment

A commercial ultrafiltration (UF) membrane (HFM-183 de Koch Membrane Systems) made of poly(vinylidene fluoride) (PVDF), was recovered with a negatively-charged polyelectrolyte (poly(sodium 4-styrenesulfonate)) (PSS), and the effects on its electric, chemical, and morphological properties were analyz...

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Main Authors: Ivette G. Sandoval-Olvera, Pilar González-Muñoz, Darío R. Díaz, Ángel Maroto-Valiente, Nelio A. Ochoa, Francisco J. Carmona, Laura Palacio, José I. Calvo, Antonio Hernández, Mario Ávila-Rodríguez, Pedro Prádanos
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Polymers
Subjects:
uf membrane modification
membrane characterization
electrical impedance spectroscopy
afm
lldp
xps
Online Access:https://www.mdpi.com/2073-4360/11/10/1689
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spelling doaj-f00477fbc13a45dba30ecefe8b9b794b2020-11-25T01:55:20ZengMDPI AGPolymers2073-43602019-10-011110168910.3390/polym11101689polym11101689Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma TreatmentIvette G. Sandoval-Olvera0Pilar González-Muñoz1Darío R. Díaz2Ángel Maroto-Valiente3Nelio A. Ochoa4Francisco J. Carmona5Laura Palacio6José I. Calvo7Antonio Hernández8Mario Ávila-Rodríguez9Pedro Prádanos10Departamento de Química, Universidad de Guanajuato, Cerro de la Venada s/n, Guanajuato 36040, Gto., MexicoDepartamento de Química, Universidad de Guanajuato, Cerro de la Venada s/n, Guanajuato 36040, Gto., MexicoLaboratorio de Membranas y Biomateriales, Instituto de Física Aplicada, Universidad Nacional de San Luis-CONICET, Chacabuco 917, San Luis D5700BWS, ArgentinaDepartamento de Química Inorgánica y Química Técnica, Facultad de Ciencias, Universidad Nacional de Educación a Distancia (UNED), 28040 Madrid, SpainLaboratorio de Membranas y Biomateriales, Instituto de Física Aplicada, Universidad Nacional de San Luis-CONICET, Chacabuco 917, San Luis D5700BWS, ArgentinaDpto. Física Aplicada. Escuela Politécnica, Universidad de Extremadura, 10004 Cáceres, SpainGrupo de Superficies y Materiales Porosos, Dpto. Física Aplicada, Facultad de Ciencias, Universidad de Valladolid, 47071 Valladolid, SpainGrupo de Superficies y Materiales Porosos, Dpto. Física Aplicada, Facultad de Ciencias, Universidad de Valladolid, 47071 Valladolid, SpainGrupo de Superficies y Materiales Porosos, Dpto. Física Aplicada, Facultad de Ciencias, Universidad de Valladolid, 47071 Valladolid, SpainDepartamento de Química, Universidad de Guanajuato, Cerro de la Venada s/n, Guanajuato 36040, Gto., MexicoGrupo de Superficies y Materiales Porosos, Dpto. Física Aplicada, Facultad de Ciencias, Universidad de Valladolid, 47071 Valladolid, SpainA commercial ultrafiltration (UF) membrane (HFM-183 de Koch Membrane Systems) made of poly(vinylidene fluoride) (PVDF), was recovered with a negatively-charged polyelectrolyte (poly(sodium 4-styrenesulfonate)) (PSS), and the effects on its electric, chemical, and morphological properties were analyzed. Atomic force microscopy (AFM), liquid−liquid displacement porometry, Electrical Impedance Spectroscopy, X-ray photoelectron spectroscopy, and Raman spectroscopy were used to investigate the modifications induced by the deposition of PSS on the PVDF positively-charged membrane and after its treatment by a radio frequency Ar-plasma. These techniques confirmed a real deposition and posterior compaction of PSS with increasing roughness and decreasing pore sizes. The evolution of the electric resistances of the membranes confirmed crosslinking and compaction with shielding of the sulfonated groups from PSS. In this way, a membrane with a negatively-charged active layer and a pore size which was 60% lower than the original membrane was obtained. The composition of the additive used by manufacturers to modify PVDF to make it positively charged was obtained by different procedures, all of which depended upon the results of X-ray photoelectron spectroscopy, leading to fairly consistent results. This polymer, carrying positive charges, contains quaternary nitrogen, as confirmed by XPS. Moreover, Raman spectroscopy confirmed that PVDF changes from mostly the β to the α phase, which is more stable as a substrate for the deposited PSS. The aim of the tested modifications was to increase the retention of divalent anions without reducing permeability.https://www.mdpi.com/2073-4360/11/10/1689uf membrane modificationmembrane characterizationelectrical impedance spectroscopyafmlldpxps
collection DOAJ
language English
format Article
sources DOAJ
author Ivette G. Sandoval-Olvera
Pilar González-Muñoz
Darío R. Díaz
Ángel Maroto-Valiente
Nelio A. Ochoa
Francisco J. Carmona
Laura Palacio
José I. Calvo
Antonio Hernández
Mario Ávila-Rodríguez
Pedro Prádanos
spellingShingle Ivette G. Sandoval-Olvera
Pilar González-Muñoz
Darío R. Díaz
Ángel Maroto-Valiente
Nelio A. Ochoa
Francisco J. Carmona
Laura Palacio
José I. Calvo
Antonio Hernández
Mario Ávila-Rodríguez
Pedro Prádanos
Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
Polymers
uf membrane modification
membrane characterization
electrical impedance spectroscopy
afm
lldp
xps
author_facet Ivette G. Sandoval-Olvera
Pilar González-Muñoz
Darío R. Díaz
Ángel Maroto-Valiente
Nelio A. Ochoa
Francisco J. Carmona
Laura Palacio
José I. Calvo
Antonio Hernández
Mario Ávila-Rodríguez
Pedro Prádanos
author_sort Ivette G. Sandoval-Olvera
title Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
title_short Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
title_full Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
title_fullStr Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
title_full_unstemmed Morphological, Electrical, and Chemical Characteristics of Poly(sodium 4-styrenesulfonate) Coated PVDF Ultrafiltration Membranes after Plasma Treatment
title_sort morphological, electrical, and chemical characteristics of poly(sodium 4-styrenesulfonate) coated pvdf ultrafiltration membranes after plasma treatment
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2019-10-01
description A commercial ultrafiltration (UF) membrane (HFM-183 de Koch Membrane Systems) made of poly(vinylidene fluoride) (PVDF), was recovered with a negatively-charged polyelectrolyte (poly(sodium 4-styrenesulfonate)) (PSS), and the effects on its electric, chemical, and morphological properties were analyzed. Atomic force microscopy (AFM), liquid−liquid displacement porometry, Electrical Impedance Spectroscopy, X-ray photoelectron spectroscopy, and Raman spectroscopy were used to investigate the modifications induced by the deposition of PSS on the PVDF positively-charged membrane and after its treatment by a radio frequency Ar-plasma. These techniques confirmed a real deposition and posterior compaction of PSS with increasing roughness and decreasing pore sizes. The evolution of the electric resistances of the membranes confirmed crosslinking and compaction with shielding of the sulfonated groups from PSS. In this way, a membrane with a negatively-charged active layer and a pore size which was 60% lower than the original membrane was obtained. The composition of the additive used by manufacturers to modify PVDF to make it positively charged was obtained by different procedures, all of which depended upon the results of X-ray photoelectron spectroscopy, leading to fairly consistent results. This polymer, carrying positive charges, contains quaternary nitrogen, as confirmed by XPS. Moreover, Raman spectroscopy confirmed that PVDF changes from mostly the β to the α phase, which is more stable as a substrate for the deposited PSS. The aim of the tested modifications was to increase the retention of divalent anions without reducing permeability.
topic uf membrane modification
membrane characterization
electrical impedance spectroscopy
afm
lldp
xps
url https://www.mdpi.com/2073-4360/11/10/1689
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