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Antimicrobial Activity
Bovine Serum Albumin
Case Study
Polyethylene Glycol
Water Purification
Water Uptake
Poly Ethylene Glycol
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Bifunctional hydrogel coatings for water purification membranes: Improved fouling resistance and antimicrobial activity
Bifunctional hydrogel coatings for water purification membranes: Improved fouling resistance and antimicrobial activity,10.1016/j.memsci.2011.02.005,F
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Bifunctional hydrogel coatings for water purification membranes: Improved fouling resistance and antimicrobial activity
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Young-Hye La
,
Bryan D. McCloskey
,
Ratnam Sooriyakumaran
,
Ankit Vora
,
Benny Freeman
,
Majed Nassar
,
James Hedrick
,
Alshakim Nelson
,
Robert Allen
Bifunctional hydrogel materials having both fouling resistance and
antimicrobial activity
were prepared by the photopolymerization of
polyethylene glycol
diacrylate (PEGDA) and a functional monomer containing ammonium salt (RNH3Cl) in the presence of a photoinitiator. Water was added to the prepolymerization mixture to increase the solubility of the RNH3Cl monomer and to control the cross-linking density of the UV-cured films. The
water uptake
and permeability of the resulting films were easily controlled by manipulating the composition ratio of the PEGDA and RNH3Cl monomers and by varying the
water content
in the prepolymerization mixture. Extremely high
water uptake
(up to 900%) and permeability (∼200Lμmm−2h−1atm−1 or above) values were observed for the films prepared by adding 80% (w/w) water into the prepolymerization mixtures of PEGDA and RNH3Cl (weight ratio=1:1 or 2:1). PSF UF membranes coated with these water-absorbing hydrogel materials showed excellent anti-fouling efficiency in cross-flow filtration tested using an oil–water emulsion or a
bovine serum albumin
(BSA) solution as the feed.
Antimicrobial activity
of the hydrogel materials was also demonstrated by a
case study
employing E. coli.
Journal:
Fuel and Energy Abstracts
, vol. 372, no. 1, pp. 285-291, 2011
DOI:
10.1016/j.memsci.2011.02.005
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