Polymerization surface-initiated atom transfer radical

Fig. 3 Schematic illustration of surface-initiated atom transfer radical polymerization...

In a recent report, new nanocomposites of Au NPs and poly(4-vinylpyridine) were obtained through surface-initiated atom-transfer radical polymerization (SI-ATRP). The citrate-stabilized gold nanoparticles were first modified by the disulfide initiator [BrC(CH3)2COO(CH2)iiS]2 for ATRP initiation, and the subsequent polymerization of 4-vinylpyridine occurred on the surface of the gold particles. The assembled Au PVP nanocomposites are pH-responsive because of the pyridyl groups, which are facially protonated and positively charged. The micrographs show Au N Ps of around 15 nm size [92] (Scheme 3.14). [Pg.151]

Thermally responsive polymers, such as poly( V-isopropyl acrylamide) (NI-PAm), have also been studied extensively for applications related to those previously discussed [112], De las Heras et al. described the synthesis and patterning of NIPAm brushes on SAMs and their subsequent performance during temperature-dependent adhesion assays of BSA and Streptococcus mutans (Fig. 7). The authors employed p.CP to pattern features of hydrophobic hexadecanethiol and backfilled the surface with an initiator-functionalized alkanethiol. Polymer brushes were grown via surface-initiated atom transfer radical polymerization (ATRP). FITC-BSA was then... [Pg.115]

As an illustration of the application of these techniques, the surface of poly(ethylene terephthalate) (PET) films has been modified via the grafting of polyacrylamide (PAM) by surface-initiated atom transfer radical polymerization (ATRP) and UV-initiated grafting in order to obtain a film of PET with a hydrophilic surface [15c],... [Pg.206]

Tsujii Y, Ejaz M, Yamamoto S, Fukuda T, Shigeto K, Mibu K, et al. Fabrication of patterned high-density polymer graft surfaces II. Amplification of EB-pattemed initiator monolayer by surface-initiated atom transfer radical polymerization. Polymer 2002 43(13) 3837—41. [Pg.10]

Singh N, Chen Z, Tomer N, Wickramasinghe SR, Soice N, Husson SM. Modification of regenerated cellulose ultrafiltration membranes by surface-initiated atom transfer radical polymerization. J Membr Sci 2008 311(1—2) 225-34. [Pg.55]

Desai SM, Solanky SS, Mandale AB, Rathore K, Singh RP. Controlled grafting of N-iso-propylacrylamide brushes onto self-standing isotactic polypropylene thin films surface initiated atom transfer radical polymerization. Polymer 2003 44(25) 7645—9. [Pg.55]

Huang J, Murata H, Koepsel RR, Russell AJ, Malyjaszewski K. Antibacterial polypropylene via surface-initiated atom transfer radical polymerization. Biomacromolecules 2007 8(5) 1396-9. [Pg.56]

Hu Y, Li JS, Yang WT, Xu FJ. Functionalized polymer film surfaces via surface-initiated atom transfer radical polymerization. Thin Sohd Films 2013 534 325-33. [Pg.56]

Fristrup CJ, Jankova K, Eskimergen R, Bukrinsky JT, Hvilsted S. Protein repellent hydrophilic grafts prepared by surface-initiated atom transfer radical polymerization from polypropylene. Polym Chem 2012 3(1) 198—203. [Pg.78]

Z. Lei and S. Bi, Preparation of polymer nanocomposites of core-shell structure via surface-initiated atom transfer radical polymerizations. Mater. Lett., 61, 3531-3534 (2007). [Pg.526]

Recently, Liu s group also reported the fabrication of thermoresponsive cross-linked hollow poly(A-isopropylacrylamide) (PNIPAM) nanocapsules with controlled shell thickness via the combination of surface-initiated atom transfer radical polymerization (ATRP) and click cross-linking. Cross-linked PNIPAM nanocapsules were fabricated by the click cross-linking of PNIPAM shell layer with a tri-functional molecule, l,l,l-fm(4-(2-propynyloxy) phenyl)ethane. Due to the thermo-responsiveness of PNIPAM, cross-linked PNIPAM nanocapsules exhibit thermo-induced collapse/swelling transitions that make it possible to classify them as nanogels. [Pg.1282]

Paripovic D, Klok H-A (2011) Improving the stability in aqueous media of polymer brushes grafted from silicon oxide substrates by surface-initiated atom transfer radical polymerization. Macromol Chem Phys 212 950... [Pg.35]

Surface-Initiated Atom Transfer Radical Polymerization... [Pg.172]

Scheme 5.1 CNT-based macroinitiators for surface-initiating atom transfer radical polymerization (ATRP). ...

Huang, W Baker, G.L. Bruening, M.L. Controlled synthesis of cross-linked ultrathin polymer films by using surface-initiated atom transfer radical polymerization. Angew. Chem. Int. Ed. 2001, 40, 1510-1512. [Pg.282]

Lately, surface-initiated atom transfer radical polymerization (ATRP) has been used to obtain a surface-grafted membrane (Liu et al. 2010). A porous PTFE membrane was treated by the hydrogen plasma and the C-F groups of the modified surface became effective initiators of ATRP. PEG methacrylate or its copolymer with A-isopropylacrylamide was grafted in such a way and the modified membranes showed temperature-responsive and protein repulsion features (Liu et al. 2010). [Pg.194]

Liu, Y.L., Han, C.C., Wei, T.C. and Chang, Y. 2010. Surface-initiated atom transfer radical polymerization from porous poly(tetrafluoroethylene) membrane using the C-F groups as initiators. J. Pohm. Sci. A Pohm. Chem. 48 2076-2083. [Pg.209]

Morandi G, Heath L, Thielemans W (2009) Cellulose nanocrystals grafted with polystyrene chains through surface-initiated atom transfer radical polymerization (SI-ATRP). Langmuir 25 8280-8286... [Pg.584]

MaUik, A.K. Rahman, M.M. Czaun, M. Takafuji, M. Diara, H. Facile synthesis of high-density poly(octadecyl acrylatej-grafted siUca for reversed-phase high-performance liquid chromatography by surface-initiated atom transfer radical polymerization. J. Chromatogr. A, 2008,1187, 119. [Pg.2155]

Kim, J.-B, Bruening, M.L. Baker, G.L. Surface-initiated atom transfer radical polymerization on gold at ambient temperature. J. Am. Chem. Soc. 2000, 122, 7616. [Pg.2156]

Recently, surface modification techniques for polymer chains have progressed a great deal with the development of a new polymer synthesis method. In particular, surface-initiated atom transfer radical polymerization (SI-ATRP) is one of the most effective modification methods for preparing a well-defined dense polymer brush structure, or polymer brush, on solid substrates. Thus, a self-oscillating polymer brush prepared by SI-ATRP can be expected to create a novel self-oscillating surface with autonomous function, which will lead to potential applications in transporting systems for nanomaterials of flow control in microfluidics. [Pg.228]

Next, in order to demonstrate the efficacy of this cell surface engineering approach, cell microarrays were prepared using a micropattemed poly(2-methacryloyloxyethyl phosphorylcholine [MPC]) (PMPC) polymer brush surface as the substrate. PMPC brushes were prepared on a silicon (Si) wafer via surface-initiated atom transfer radical polymerization, as previously described elsewhere [35]. Selective decomposition of the initiators immobilized on the Si wafer using UV light irradiation resulted in micropatterning of the... [Pg.257]

Ye J, Chen Y, Zhou W, Wang X, Guo Z, Hu Y (2009) Preparation of polyma PbS hybrid nanofibers by surface-initiated atom transfer radical polymerization and acidolysis by H2S. Mater Lett 63 1425-1427... [Pg.138]

Fristrup, C.J., K. Jankova, and S. Hvilsted. 2009. Surface-initiated atom transfer radical polymerization-a technique to develop biofunctional coatings. Soft Matter 5(23) 4623 634. [Pg.52]

Singh, N., et al. 2008. Surface-initiated atom transfer radical polymerization a new method for preparation of polymeric membrane adsorbers. Journal of Membrane Science 309(1-2) 64-n. [Pg.52]

Ma, H., et al. 2006. Surface-initiated atom transfer radical polymerization of oligo(ethylene glycol) methyl methacrylate from a mixed self-assembled monolayer on gold. Advanced Functional Materials 16(5) 640-648. [Pg.52]

Mu B, Shen RP, Liu P (2009) Crosslinked polymeric nanocapsules from polymer brushes grafted silica nanoparticles via surface initiated atom transfer radical polymerization. Colloid SurfB 74 511-515... [Pg.130]

Tanaka, T. Okayama, M. Kitayama, Y. Kagawa, Y Okubo, M. Preparation of mushroom-like Janus particles by site-selective surface-initiated atom transfer radical polymerization in aqueous dispersed systems. Langmuir 2010, 26, 7843-7847. [Pg.16]

Xu D, Yu WH, Kang ET, Neoh KG (2004) Functionalization of hydrogen-terminated silicon via surface-initiated atom-transfer radical polymerization and derivatization of the polymer brushes. J Colloid Interface Sci 279 78... [Pg.447]

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