Designing functionalized polymers through post-polymerization modification of side chain leucine-based polymer

Abstract

The opportunity to modify the chemical functionality of the incorporated amino acid moiety in side chain amino acid-based polymers provides access to tailor their optical, mechanical, and biological properties. Methacrylate monomers from C-terminus modified amino acids and their subsequent polymerization leads to the formation of polymethacrylate polymers with pendant amine (-NH2) groups. To this end, the post-polymerization reactions on the amine groups offer a facile route to prepare functionalized side chain amino acid-based polymeric materials. Herein, we synthesized side chain L-leucine pendant homopolymer using reversible addition-fragmentation chain transfer (RAFT) polymerization of Boc-L-leucine methacryloyloxyethyl ester (Boc-leu-HEMA) and subsequently the Boc group is deprotected to prepare P(H3N+-leu-HEMA). Post-polymerization modifications on the pendant amine groups were performed to incorporate fluorescent probe, propargyl group, methacrylic moiety, hydrophobic fatty acid, anionic pendant, and hydrophilic polyethylene glycol (PEG) units; which demonstrates an efficient platform to build a library of functionalized polymers from a single polymeric backbone. We have studied the solvatochromic behavior of fluorescence probe bearing polymers using fluorescence spectroscopy. The ability of the pendent methacrylic unit containing polymers to undergo crosslinking and the mechanical properties of the synthesized gel are investigated by the rheological study.