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  • Biologically active surfaces are essential in many applications in the fields of biosensing, bioimplants, and tissue engineering. However, the introduction of bioactive motifs without impairment of their ability to resist non-specific interactions with biological media remains a challenge. Herein, we present a straightforward, facile strategy for the creation of bioactive surfaces based on the end-group biofunctionalization of state-of-the-art polymer brushes via an ultra-fast Diels–Alder “click reaction. Surface-initiated atom transfer radical polymerization is employed to grow antifouling polymers preserving the end groups. These groups are then further converted to a reactive cyclopentadienyl moiety and exploited for the immobilization of biomolecules on the topmost layer of the brush. The minimal chemical modification of the antifouling polymer brush accounts for the full preservation of the fouling resistance of the surface even after biofunctionalization, which is critical for the aforementioned applications.
  • Biologically active surfaces are essential in many applications in the fields of biosensing, bioimplants, and tissue engineering. However, the introduction of bioactive motifs without impairment of their ability to resist non-specific interactions with biological media remains a challenge. Herein, we present a straightforward, facile strategy for the creation of bioactive surfaces based on the end-group biofunctionalization of state-of-the-art polymer brushes via an ultra-fast Diels–Alder “click reaction. Surface-initiated atom transfer radical polymerization is employed to grow antifouling polymers preserving the end groups. These groups are then further converted to a reactive cyclopentadienyl moiety and exploited for the immobilization of biomolecules on the topmost layer of the brush. The minimal chemical modification of the antifouling polymer brush accounts for the full preservation of the fouling resistance of the surface even after biofunctionalization, which is critical for the aforementioned applications. (en)
Title
  • Exploiting end group functionalization for the design of antifouling bioactive brushes
  • Exploiting end group functionalization for the design of antifouling bioactive brushes (en)
skos:prefLabel
  • Exploiting end group functionalization for the design of antifouling bioactive brushes
  • Exploiting end group functionalization for the design of antifouling bioactive brushes (en)
skos:notation
  • RIV/61389013:_____/14:00428662!RIV15-GA0-61389013
http://linked.open...avai/riv/aktivita
http://linked.open...avai/riv/aktivity
  • I, P(ED1.1.00/02.0109), P(GAP108/11/1857), P(GAP205/12/1702)
http://linked.open...iv/cisloPeriodika
  • 13
http://linked.open...vai/riv/dodaniDat
http://linked.open...aciTvurceVysledku
http://linked.open.../riv/druhVysledku
http://linked.open...iv/duvernostUdaju
http://linked.open...titaPredkladatele
http://linked.open...dnocenehoVysledku
  • 16082
http://linked.open...ai/riv/idVysledku
  • RIV/61389013:_____/14:00428662
http://linked.open...riv/jazykVysledku
http://linked.open.../riv/klicovaSlova
  • click chemistry; end-group functionalization; non-fouling (en)
http://linked.open.../riv/klicoveSlovo
http://linked.open...odStatuVydavatele
  • GB - Spojené království Velké Británie a Severního Irska
http://linked.open...ontrolniKodProRIV
  • [62A9EE1B0236]
http://linked.open...i/riv/nazevZdroje
  • Polymer Chemistry
http://linked.open...in/vavai/riv/obor
http://linked.open...ichTvurcuVysledku
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http://linked.open...vavai/riv/projekt
http://linked.open...UplatneniVysledku
http://linked.open...v/svazekPeriodika
  • 5
http://linked.open...iv/tvurceVysledku
  • Brynda, Eduard
  • Pop-Georgievski, Ognen
  • Rodriguez-Emmenegger, Cesar
  • de los Santos Pereira, Andres
  • Bruns, M.
  • Kuzmyn, Andrii
http://linked.open...ain/vavai/riv/wos
  • 000337097500023
issn
  • 1759-9954
number of pages
http://bibframe.org/vocab/doi
  • 10.1039/C4PY00281D
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