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Polymer brushes macromolecules

Dhinojwala A and Granick S 1997 Surface forces in the tapping mode solvent permeability and hydrodynamic thickness of adsorbed polymer brushes Macromolecules 30 1079-85... [Pg.1746]

Zhulina EB, Birshtein TM, Borisov OV (1995) Theory of ionizable polymer brushes. Macromolecules 28 1491... [Pg.36]

Klein, J., Kamiyama, Y., Yoshizawa, H., IsraelachviH, J.N., Fredrickson, G.H., Pincus, P., Fetters, L.J. Lubrication forces between surfaces bearing polymer brushes. Macromolecules 26, 5552-5560 (1993). doi 10.1021/ma00073a004... [Pg.205]

Milner, S., and Witten, T. 1988. Theory of grafted polymer brush. Macromolecules 21 2610. [Pg.217]

Cui, J., Nguyen, T.-H., Ceolfn, M., Berger, R., Azzaroni, O., Del Campo, A. (2012). Photo-tunable response in caged polymer brushes. Macromolecules, 45, 3213-3220. [Pg.142]

Lillethorup, M., K. Shimizu, N. Plumere, S. U. Pedersen, K. Daasbjerg. Surface-attached poly(glycidyl methacrylate) as a versatile platform for creating dual-functional polymer brushes. Macromolecules Al, 2014 5081-5088. [Pg.216]

Milliner M, Lunkenbein T, Schieder M, Groschel AH, Miyajima N, Foitsch M, Breu J, Caruso F, Muller AHE (2012) Template-directed mild synthesis of anatase hybrid nanotubes within cylindrical core-shell-corona polymer brushes. Macromolecules 45(17) 6981-6988... [Pg.68]

He, G. L., Merlitz, H., Sommer, J. U. and Wu, C. X. (2007) Static and dynamic properties of polymer brushes at moderate and high grafting densities A molecular dynamics study. Macromolecules, 40, 6721-6730. [Pg.69]

Beckert, F., et al., Sulfur-functionalized graphenes as macro-chain-transfer and RAFT agents for producing graphene polymer brushes and polystyrene nanocomposites. Macromolecules, 2012. 45(17) p. 7083-7090. [Pg.162]

Polymer brushes were found to minimize adsorption of proteins by the soft or steric repulsion of the flexible yet immobihzed macromolecules [179], although a generally valid explanation of the protein resistant properties of some hydrophihc brushes is not available. A similar explanation can be formulated for the improvement of the colloidal stability of particle suspensions, when polymer brush-type layers are bound to small particles. This and other intriguing features of polymer brushes prompted a remarkable experimental and theoretical research activity in order to understand and exploit the unique properties of polymer brushes. [Pg.400]

The advantage of this approach is not only the free choice of surface stractures which can be created, the material contrast which can be realized by the combination of chemical lithography and amplification with SIP, but also the potential to bridge the gap in structural feature sizes ranging from the microscopic to the nano-scopic scale. Since the feature sizes reported are still limited to the features of the mask used, direct writing with a focused e-beam should result in patterned polymer brushes of features matching the size of the immobilized macromolecule. [Pg.411]

Douglas JF, Kent MS, Satija SK, Karim A (2001) Polymer Brushes Structure and Dynamics. In Buschow KHJ (ed) Encyclopedia of Materials Science and Technology. Elsevier, Amsterdam Alexander S (1977) J Phys France 38 983 Halperin A, TirreU M, Lodge TP (1991) Adv Polym Sci 100 31 Singh C, Picket GT, Balazs AC (1996) Macromolecules 29 7559 Currie EPK, Norde W, Cohen Stuart MA (2003) Adv Colloid Inter Sci 100-102 205 Meredith JC, Karim A, Amis EJ (2002) MRS Bull 27 330... [Pg.120]

Husseman M, Malmstrom EE, McNamara M, Mate M, Mecerreyes D, Benoit DG, Hedrick JL, Mansky P, Huang E, RusseU TP, Hawker CJ (1999) Controlled synthesis of polymer brushes by Living free radical polymerization techniques. Macromolecules 32 1424-1431... [Pg.102]

Zhao B, Brittain WJ (2000) Polymer brushes surface-immobilized macromolecules. Prog Polym Sci 25 677-710... [Pg.102]

Granville AM, Boyes SG, Akgun B, EosterMD, Brittain WJ. Synthesis and characterization of stimuli-responsive semifluorinated polymer brushes prepared by atom transfer radical polymerization. Macromolecules 2004 37 2790-2796. [Pg.59]

Kizhakkedathu JN, Norris-Jones R, Brooks DE. Synthesis of well-defined environmentally responsive polymer brushes by aqueous ATRP. Macromolecules 2004 37 734-743. [Pg.60]

Figure 1 Macromolecular architectures linear macromolecular chains (homopolymer, block-copolymer and statistical copolymer [14]), brushed-polymer (= linear chains attached to a polymer-chain brush-polymer, brush-copolymers [14]), star polymer [4], mikto-star-polymer [16], arborescent graft polymer (=repeated grafting of linear chains on a macromolecule [17,18]), dendrimer (= maximally branched, regular polymer [15])... Figure 1 Macromolecular architectures linear macromolecular chains (homopolymer, block-copolymer and statistical copolymer [14]), brushed-polymer (= linear chains attached to a polymer-chain brush-polymer, brush-copolymers [14]), star polymer [4], mikto-star-polymer [16], arborescent graft polymer (=repeated grafting of linear chains on a macromolecule [17,18]), dendrimer (= maximally branched, regular polymer [15])...
Neutral [2, 58-60] and charged polymer brushes [2, 63, 64] with high molecular masses and high grafting densities of the surface-bound macromolecules have been established. While molecular weights of the surface-attached polymer chains of more than 106 g mol-1 could be realized, the distances of the surface-attached chains were in some cases less than 3 nm. [Pg.97]

The interfacial phenomena of phase coexistence and segregation are described as observed in thin polymer films. This work also considers related issues in the focus of current research such as wetting phenomena, finite size effects expected in very thin films, surface (and bulk) properties of mixtures with stiffness disparity, and conformational properties of end-segregated macromolecules forming polymer brushes. [Pg.8]

Barentin C, Muller P, Joanny JF (1998) Polymer brushes formed by end-capped poly(ethylene oxide) (PEO) at the air-water interface. Macromolecules 31 2198-2211... [Pg.83]

Wurlitzer A, Politsch E, Huebner S, Krueger P, Weygand M, Kjaer K, Hommes P, Nuyken O, Cevc G, Loesche M (2001) Conformation of polymer brushes at aqueous surfaces determined with X-ray and neutron reflectometry. 2. High-density phase transition of lipopolyoxazolines. Macromolecules 34 1334-1342... [Pg.83]

Zhang XZ, Wu DQ, Chu CC (2004) Synthesis, characterization and controlled dmg release of thermosensitive IPN-PNIPAAm hydrogels. Biomaterials 25 3793-3805 Zhao B, Brittain WJ (2000) Polymer brushes surface-immobilized macromolecules. Progr Polym Sci Jpn 25 677-710... [Pg.66]

Kelly T W ef a/1998 Direct force measurements at polymer brush surfaces by atomic force microscopy Macromolecules 31 4297-300... [Pg.1746]

T. Kawai, K. Saito, K. Sugita and T. Sugo, Extension and Shrinkage of Polymer Brush Grafted onto Porous Membrane Induced by Protein Binding, Macromolecules, 33 (2000) 1306. [Pg.698]

Piech M, Bell NS. Controlled synthesis of photochromic polymer brushes by atom transfer radical polymerization. Macromolecules 2006 39(3) 915—22. [Pg.9]

Lemieux M, Usov D, Minko S, Stamm M, Shulha H, Tsukruk W. Reorganization of binary polymer brushes reversible switching of surface microstructures and nanomechanical properties. Macromolecules 2003 36(19) 7244—55. [Pg.9]

Biesalski M, Ruhe J. Scaling laws for the swelling of neutral and charged polymer brushes in good solvents. Macromolecules 2002 35(2) 499-507. [Pg.10]

See other pages where Polymer brushes macromolecules is mentioned: [Pg.69]    [Pg.285]    [Pg.129]    [Pg.208]    [Pg.69]    [Pg.285]    [Pg.129]    [Pg.208]    [Pg.399]    [Pg.416]    [Pg.78]    [Pg.117]    [Pg.122]    [Pg.191]    [Pg.44]    [Pg.45]    [Pg.310]    [Pg.82]    [Pg.84]    [Pg.94]    [Pg.104]    [Pg.407]   
See also in sourсe #XX -- [ Pg.220 ]



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