Aqueous Antibacterial Enhancement Using Kapok Fibers Chemically Modified in 3-D Crosslinked Structure

Aqueous Antibacterial Enhancement Using Kapok Fibers Chemically Modified in 3-D Crosslinked Structure

The surface of a kapok fiber was coated with Dopamine (DOPA) through a three-dimensional (3-D) polymerization. Such surface-modified kapok fiber was useful in deactivating microbial activity of microorganisms such as bacteria. The morphology of the surface-modified kapok fiber was analyzed with a fi...

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Bibliographic Details
Published in:Water environment research Vol. 88; no. 7; pp. 611 - 616
Main Authors: Wang, Runkai, Shin, Chul-Ho, Chang, Yungyu, Kim, Daeik, Park, Joon-Seok
Format: Journal Article
Language:English
Published: United States John Wiley and Sons, Inc 01-07-2016
Water Environment Federation
Blackwell Publishing Ltd
Subjects:
3‐D polymerization
Anti-Bacterial Agents - pharmacology
Antimicrobial agents
Apoptosis
Ceiba - chemistry
Dopamine
Dopamine - chemistry
E coli
Escherichia coli
Escherichia coli - drug effects
kapok fiber
Polymerization
Scanning electron microscopy
silver
Silver - chemistry
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Summary:The surface of a kapok fiber was coated with Dopamine (DOPA) through a three-dimensional (3-D) polymerization. Such surface-modified kapok fiber was useful in deactivating microbial activity of microorganisms such as bacteria. The morphology of the surface-modified kapok fiber was analyzed with a field emission scanning electron microscope (FE-SEM). After a silver coating process along with DOPA functionalization, a strong antibacterial property was observed against Escherichia coli (E. coli), using a direct contact method. Almost 100% of bacterial cells were deactivated in 4 h, also showing a complete hindrance to a bacterial growth for 48 h. With the help of the images of FE-SEM and its analysis, the mechanism of an antibacterial assay was enlightened and reasonably estimated that silver ions from the poly-DOPA-coated kapok fiber with silver (KF-DOPA/Ag) led to alterations of cell morphology. This 3-D composite successfully interacted in vitro with functional groups in terms of bacterial deactivation.
Bibliography:Sony Astani Department of Civil and Environmental Engineering, Viterbi School of Engineering, University of Southern California, Los Angeles, CA, USA
Seohae Environment Science Institute, Jeonju, Korea
Department of Environmental Science and Engineering, College of Chemistry and Chemical Engineering, Shanghai University of Engineering Science, Shanghai, China
Department of Environmental Engineering, Kangwon National University, Gangwon‐do, Samcheok, Korea
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1061-4303
1554-7531
DOI:10.2175/106143016X14609975746442