Antibacterial surfaces based on poly(cationic liquid) brushes: switchability between killing and releasing via anion counterion switching

The development of a smart antibacterial surface that can both kill attached live bacteria and release dead bacteria is reported. The surface consists of counterion-responsive poly(cationic liquid) brushes of poly(1-(2-methacryloyloxyhexyl)-3-methylimidazolium bromide) (PIL(Br)), the properties of w...

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Published in:Journal of materials chemistry. B, Materials for biology and medicine Materials for biology and medicine, 2016-01, Vol.4 (36), p.6111-6116
Main Authors: Dong, Yi-Shi, Xiong, Xin-Hong, Lu, Xiao-Wen, Wu, Zhao-Qiang, Chen, Hong
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Language:English
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cited_by cdi_FETCH-LOGICAL-c287t-9f8c818dd54571ee6289214b671140493086be07ccfdc331ac7b7d8bac9dc9093
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container_issue 36
container_start_page 6111
container_title Journal of materials chemistry. B, Materials for biology and medicine
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creator Dong, Yi-Shi
Xiong, Xin-Hong
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Chen, Hong
description The development of a smart antibacterial surface that can both kill attached live bacteria and release dead bacteria is reported. The surface consists of counterion-responsive poly(cationic liquid) brushes of poly(1-(2-methacryloyloxyhexyl)-3-methylimidazolium bromide) (PIL(Br)), the properties of which can be switched repeatedly between bacterial killing and bacterial release. Upon counter-anion exchange of PIL(Br) chains using lithium bis(trifluoromethanesulfonyl) amide (LiTf N) to yield PIL(Tf N), the wettability of the surface changes from hydrophilic (water contact angle ∼52°) to hydrophobic (∼97°). The PIL(Br) chains adopt an extended conformation with bactericidal properties. Counter-anion switching to PIL(Tf N) gives a collapsed chain conformation allowing the release of killed bacteria. The switchable killing and releasing actions of the surface were maintained over three cycles. Thus it is concluded that PIL(Br) layers provide a viable approach for the fabrication of "smart" antibacterial surfaces.
doi_str_mv 10.1039/c6tb01464j
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title Antibacterial surfaces based on poly(cationic liquid) brushes: switchability between killing and releasing via anion counterion switching
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