Colloidal nanocomposites

Carbon monoxide PANI-Ti02 colloids Nanocomposite Cond. Ss 1.8 141 ppm 23-141 ppm 23 ppm... [Pg.586]

Maeda S, Armes SP (1993) Preparation of novel polypyrrole-silica colloidal nanocomposites. J Colloid Interface Sci 159(l) 257-259... [Pg.48]

Maeda S, Armes SP (1994) Preparation and characterization of novel polypytrole-silica colloidal nanocomposites. J Mater Chem 4(6) 935-942... [Pg.48]

Percy Ml, Amalvy II, Randall DP, Armes SP, Greaves SJ, Watts IF (2004) Synthesis of vinyl polymer-silica colloidal nanocomposites prepared using commercial alcohohc sdica sols. Langmuir 20(6) 2184-2190... [Pg.51]

Schmid A, Tonnar 1, Armes SP (2008) A new highly efficient route to polymer-sdica colloidal nanocomposite particles. Adv Mater 20(17) 3331-3336... [Pg.51]

Schmid A, Armes SP, Leite CAP, Galembeck F (2009) Efficient preparation of polystyrene/silica colloidal nanocomposite particles by emulsion polymerization using a glycerol-functionaUzed sihca sol. Langmuir 25(4) 2486-2494... [Pg.51]

M.J. Percy, V. Michailidou, S.P. Armes, C. Perruchot, J.F. Watts, S.J. Greaves, Synthesis of vinyl polymer silica colloidal nanocomposites via aqueous dispersion polymerization, Langmuir 19 (2003) 2072. [Pg.16]

Although the synthesis of polymer colloids has been known for almost a century, the elaboration of organic/inorganic particles is only in its infancy. Some fifty years ago, early methods focused primarily on pigment encapsulation for the paint industry, and were mainly motivated by the problem of pigment dispersion. Since then, research interest in polymer-encapsulated minerals and the so-called colloidal nanocomposites has exploded such that the subject now relates to a wide variety panel of inorganic particles including mineral oxides, aluminosilicates, metal colloids, and semiconductors. [Pg.136]

S.P. Armes, S.J. Grieves, J.S. Watts, H. Wiese, Surface characterization of vinyl polymer-silica colloidal nanocomposites using X-ray photoelectron spectroscopy,... [Pg.151]

M. E. Garcia, L. A. Baker and R. M. Crooks, Preparation and characterization of dendrimer-gold colloid nanocomposites. Analytical... [Pg.285]

OJ O Self-assembled colloidal nanocomposites OJ fi O Layer-by-layer method... [Pg.283]

Loganathan B, Karthikeyan B (2013) Au core Pd/Pt shell in trimetallic Au/Pd/Pt colloidal nanocomposites physicochemical characterization study. Colloids Surf A Physicochem Eng Asp 436 944-952... [Pg.229]

Both the head-type surfmers and the tail-type compounds were used as adsorbants on colloidal silica particles before spontaneous polymerization (without initiators) upon increasing the temperature, to produce colloidal nanocomposites [56]. [Pg.514]

Sahiner, N., 2007. Colloidal nanocomposite hydrogel particles. Colloid Polymer Science 285, 413-421. [Pg.544]

Percy MJ, Barthet C, Lobb JC, Khan MA, Lascelles SF, Vamvakaki M, Armes SP (2000) Synthesis and characterization of vinyl polymer-silica colloidal nanocomposites. Langmuir 16 6913... [Pg.508]

Although most CRP-mediated syntheses of colloidal nanocomposites use RAFT polymerization to control the polymer architecture and particle morphology, NMP has also been successfully employed for the same purpose. As reviewed elsewhere, NMP has been successfully conducted in aqueous dispersed media for the PISA technique (which was pioneered using RAFT polymerization) [79]. NMP is less versatile than RAFT polymerization in terms of monomer choice because it is generally incompatible with methacrylates [95] except when some specific nitroxides are employed [96]. However, the applicability of NMP has been expanded to methacrylate systems through a technique developed by Charleux et al. [97], in which a small amount of styrene is added to the monomer feed when preparing the macroalkoxyamine. This enhances the reversible deactivation process and forms stable alkoxyamines. [Pg.154]

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