Rahane, S.
, Hensarling, R.
, Sparks, B.
, Stafford, C.
and Patton, D.
(2011),
Synthesis of Multifunctional Polymer Brushes via Sequential and Orthogonal Thiol-Click Reactions, Journal of Materials Chemistry
(Accessed April 18, 2024)
Official websites use .gov
A .gov website belongs to an official government organization in the United States.
Secure .gov websites use HTTPS
A lock (
) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.
Synthesis of Multifunctional Polymer Brushes via Sequential and Orthogonal Thiol-Click Reactions
Published
Author(s)
Santosh B. Rahane, Ryan M. Hensarling, Bradley J. Sparks, , Derek L. Patton
Abstract
Fabrication of multifunctional surfaces with complexity approaching that found in nature requires the application of a modular approach to surface engineering. We describe a versatile post-polymerization modification strategy to synthesize multifunctional polymer brush surfaces via combination of surface-initiated photopolymerization (SIP) and orthogonal thiol-click reactions. Specifically, we demonstrate two routes to multifunctional brush surfaces: In the first approach, alkyne-functionalized homopolymer brushes are modified with multiple thiols via a statistical, radical-mediated thiol-yne co-click reaction; and in the second approach, statistical copolymer brushes carrying two distinctly-addressable reactive moieties are sequentially modified via orthogonal base-catalyzed thiol-X (where X represents an isocyanate, epoxy, or α-bromoester) and radical-mediated thiol-yne reactions. In both cases, we show that surface properties, in the form of wettability, can be easily tuned over a wide range by judicious choice of brush composition and thiol functionality.Citation
Journal of Materials Chemistry
Volume
22
Issue
3
Pub Type
Journals
Keywords
polymer brushes, surfaces, functionalization, click chemistry, surface modification
Citation
Created November 13, 2011, Updated October 12, 2021