Sampa Saha scite author profile

The growth of polymer brushes on polymer substrates is often challenging because of substrate incompatibility with the organic solvents used for initiator attachment. This letter reports the use of layer-by-layer adsorption of macroinitiators and subsequent aqueous ATRP from these immobilized initiators to prepare polymer brushes on polymeric substrates. Polyethersulfone (PES) films and porous membranes were modified with polyelectrolyte multilayer films, and a previously developed polycationic initiator, poly(2-(trimethylammonium iodide)ethyl methacrylate-co-2-(2-bromoisobutyryloxy)ethyl acrylate), was then electrostatically adsorbed onto these polyelectrolyte films. The immobilized macroinitiator is very efficient in initiating the growth of polymer brushes on PES, as demonstrated by aqueous syntheses of poly(2-hydroxyethyl methacrylate) (PHEMA) and poly(2-(dimethylamino)ethyl methacrylate) (PDMAEMA) films. PHEMA (250 nm thick) and PDMAEMA (40 nm thick) brushes were grown in 2 h from surfaces modified with polycationic initiators. Moreover, this procedure is effective for growing brushes in the pores of PES membranes.

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Chemically Controlled Bending of Compositionally Anisotropic Microcylinders

Saha

Copic

Bhaskar

et al. 2011

Angew Chem Int Ed

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Chemically Orthogonal Three‐Patch Microparticles

et al. 2014

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Compared to two-dimensional substrates, only a few methodologies exist for the spatially controlled decoration of three-dimensional objects, such as microparticles. Combining electrohydrodynamic co-jetting with synthetic polymer chemistry, we were able to create two- and three-patch microparticles displaying chemically orthogonal anchor groups on three distinct surface patches of the same particle. This approach takes advantage of a combination of novel chemically orthogonal polylactide-based polymers and their processing by electrohydrodynamic co-jetting to yield unprecedented multifunctional microparticles. Several micropatterned particles were fabricated displaying orthogonal click functionalities. Specifically, we demonstrate novel two- and three-patch particles. Multi-patch particles are highly sought after for their potential to present multiple distinct ligands in a directional manner. This work clearly establishes a viable route towards orthogonal reaction strategies on multivalent micropatterned particles.

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Sampa Saha

Infection resistant polymer brush coating on the surface of biodegradable polyester

Fabrication of topologically anisotropic microparticles and their surface modification with pH responsive polymer brush

Completely Aqueous Procedure for the Growth of Polymer Brushes on Polymeric Substrates

Chemically Controlled Bending of Compositionally Anisotropic Microcylinders

Chemically Orthogonal Three‐Patch Microparticles

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