Interconnection of electrospun nanofibers via a post co-solvent treatment and its open pore size effect on pressure-retarded osmosis performance

Design of support layer structures for asymmetric thin film composite membranes has drawn keen attention to improve the power density for salinity gradient power based on pressure-retarded osmosis. This study has interests on electrospun nanofiber-based support layers, and the effects of its open po...

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Published inMacromolecular research Vol. 24; no. 4; pp. 314 - 322
Main Authors Park, Chul Ho, Bae, Harim, Kwak, Sung Jo, Jang, Moon Seok, Lee, Jung-Hyun, Lee, Jonghwi
Format Journal Article
LanguageEnglish
Published Seoul The Polymer Society of Korea 01.04.2016
한국고분자학회
Subjects
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Complex Fluids and Microfluidics
Nanochemistry
Nanotechnology
Physical Chemistry
Polymer Sciences
Soft and Granular Matter
고분자공학
pressure-retarded osmosis
open pore size
electrospinning
salt flux
nanofiber support layer
Online AccessGet full text
ISSN1598-5032
2092-7673
DOI10.1007/s13233-016-4044-2

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Abstract Design of support layer structures for asymmetric thin film composite membranes has drawn keen attention to improve the power density for salinity gradient power based on pressure-retarded osmosis. This study has interests on electrospun nanofiber-based support layers, and the effects of its open pore sizes are attractively stated. To control the open pore size, a counter charge deposition method was introduced. To retain the open pore size, all the nanofibers were interconnected by a post co-solvent treatment technology. For a thin film composite membrane, an interfacial polymerization was used to fabricate a polyamide active layer on the electrospun nanofiber-based support layers. It was found that although the maximum power density achieved with an open pore size of 2.4 μm 2 was 0.14 W/m 2 , it increased significantly up to 9.5 W/m 2 when the pore size was reduced to 0.65 μm 2 . The cause is the salt flux which increases with increasing the open pore sizes under applied pressures.
AbstractList Design of support layer structures for asymmetric thin film composite membranes has drawn keen attention to improve the power density for salinity gradient power based on pressure-retarded osmosis. This study has interests on electrospun nanofiber-based support layers, and the effects of its open pore sizes are attractively stated. To control the open pore size, a counter charge deposition method was introduced. To retain the open pore size, all the nanofibers were interconnected by a post co-solvent treatment technology. For a thin film composite membrane, an interfacial polymerization was used to fabricate a polyamide active layer on the electrospun nanofiber-based support layers. It was found that although the maximum power density achieved with an open pore size of 2.4 μm2 was 0.14 W/m2, it increased significantly up to 9.5 W/m2 when the pore size was reduced to 0.65 μm2. The cause is the salt flux which increases with increasing the open pore sizes under applied pressures. KCI Citation Count: 6
Design of support layer structures for asymmetric thin film composite membranes has drawn keen attention to improve the power density for salinity gradient power based on pressure-retarded osmosis. This study has interests on electrospun nanofiber-based support layers, and the effects of its open pore sizes are attractively stated. To control the open pore size, a counter charge deposition method was introduced. To retain the open pore size, all the nanofibers were interconnected by a post co-solvent treatment technology. For a thin film composite membrane, an interfacial polymerization was used to fabricate a polyamide active layer on the electrospun nanofiber-based support layers. It was found that although the maximum power density achieved with an open pore size of 2.4 μm 2 was 0.14 W/m 2 , it increased significantly up to 9.5 W/m 2 when the pore size was reduced to 0.65 μm 2 . The cause is the salt flux which increases with increasing the open pore sizes under applied pressures.
Author Lee, Jung-Hyun
Kwak, Sung Jo
Lee, Jonghwi
Park, Chul Ho
Jang, Moon Seok
Bae, Harim
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  organization: Department of Chemical Engineering and Materials Science, Chung-Ang University
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Keywords pressure-retarded osmosis
open pore size
electrospinning
salt flux
nanofiber support layer
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Snippet Design of support layer structures for asymmetric thin film composite membranes has drawn keen attention to improve the power density for salinity gradient...
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SubjectTerms Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Complex Fluids and Microfluidics
Nanochemistry
Nanotechnology
Physical Chemistry
Polymer Sciences
Soft and Granular Matter
고분자공학
Title Interconnection of electrospun nanofibers via a post co-solvent treatment and its open pore size effect on pressure-retarded osmosis performance
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