Preparation of bridged silica RO membranes from copolymerization of bis(triethoxysilyl)ethene/(hydroxymethyl)triethoxysilane. Effects of ethenylene-bridge enhancing water permeability

Copolymerization of bis(triethoxysilyl)ethene (BTESE2) and hydroxymethyl(triethoxy)silane (HMTES) was carried out to prepare new bridged silica membranes containing C-O-Si linkages. The membranes were examined for reverse osmosis (RO) to evaluate the water desalination properties. It was found that...

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Bibliographic Details
Published in:Journal of membrane science 2018-01, Vol.546, p.173-178
Main Authors: Zheng, Feng-Tao, Yamamoto, Kazuki, Kanezashi, Masakoto, Tsuru, Toshinori, Ohshita, Joji
Format: Article
Language:English
Subjects:
Alkoxysilane
Bridged silica membrane
Hydrolysis/condensation polymerization
Sol-gel process
Water desalination
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Summary:Copolymerization of bis(triethoxysilyl)ethene (BTESE2) and hydroxymethyl(triethoxy)silane (HMTES) was carried out to prepare new bridged silica membranes containing C-O-Si linkages. The membranes were examined for reverse osmosis (RO) to evaluate the water desalination properties. It was found that the hydrolysis of C–O–Si bonds occurred during the RO experiments to generate hydrophilic alcohol (C-OH) and silanol (Si-OH) units, thereby increasing the water permeability of the bridged silica membranes. Similar phenomenon was already reported for copolymer membranes prepared from bis(triethoxysilyl)ethane (BTESE1) and HMTES. However, the present membranes showed improved performance with higher water permeance by 4–14 times when compared to the previous BTESE1/HMTES-based membranes, although NaCl rejection was slightly lowered. [Display omitted] •Ethenylene-bridged BTESE2 was copolymerized with HMTES, yielding RO membranes.•The membranes showed high water permeance and moderate salt rejection.•The trade-off between water permeance and salt rejection was adjusted by the monomer.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2017.10.025