Login / Signup

Grafting of Poly(ionic liquid) Brushes through Fe 0 -Mediated Surface-Initiated Atom Transfer Radical Polymerization for Marine Antifouling.

Daheng WuJianing WangXiaodong YinRunxiang TanTao Zhang
Published in: Langmuir : the ACS journal of surfaces and colloids (2024)
Surface-tethered poly(ionic liquid) brushes have attracted considerable attention in widespread fields, from bioengineering to marine antifouling. However, their applications have been constrained due to the poor polymerization efficiency and sophisticated operation process. In this work, we efficiently synthesized the poly(ionic liquid) brushes with unparalleled speed (up to 98 nm h -1 ) through Fe 0 -mediated surface-initiated atom transfer radical polymerization (Fe 0 SI-ATRP) while consuming only microliter of monomer solution under ambient conditions. We also demonstrated that poly(ionic liquid) brushes with gradient thickness and wettability were easily accessible by regulating the distance between the opposite plates of Fe 0 SI-ATRP. Moreover, the resultant poly(ionic liquid) brushes presented excellent antibacterial activities against Escherichia coli (99.2%) and Bacillus subtilis (88.1%) after 24 h and low attachment for proteins and marine algae (≤5%) for over 2 weeks. This research provided pathways to the facile and controllable fabrication of poly(ionic liquid) materials for marine antifouling applications.
Keyphrases