H surface modification

Ries, P. Betorello, H. Surface modification of PVC with biodegradable polymers, J. Appl. Polym. Set, 1997, 64, 1195-1201. [Pg.63]

Chen, J.P., Wu, S., and Chong, K.H., Surface modification of granular activated carbon by citric acid for enhancement of copper adsorption. Carbon, 41, 1979, 2003. [Pg.1028]

Ifuku, S., Nogi, M., Abe, K, Handa, K., Nakatsubo, F., Yano, H. Surface modification of bacterial cellulose nanofibers for property enhancement of optically transparent composites dependence on acetyl-group DS. Biomacromolecules 8, 1973-1978 (2007)... [Pg.15]

Wang, D. Oleschuk, R. D. Horton, J. H., Surface Modification of Poly(dimethylsiloxane) with a Perfluorinated Alkoxysilane for Selectivity Toward Fluorous Tagged Peptides. Langmuir 2008, 24,1080-1086. [Pg.136]

Yuan L, Yu Q, Li D, Chen H. Surface modification to control protein/surface interactions. Macromol Biosci 2011 11(8) 1031 0. [Pg.314]

Wang B, Lin Q, Jin T, Shen C, Tang J, Han Y, Chen H. Surface modification of intraocular lenses with hyaluronic acid and lysozyme for the prevention of endophthalmitis and posterior capsule opacification. RSC Adv. 2015 5 3597-604. [Pg.25]

Liu X, Guan Y, Ma Z, Liu H. Surface modification and characterization of magnetic polymer nanospheres prepared by miniemulsion polymerization. Langmuir 2004 20(23) 10278-82. [Pg.150]

It has also been shown that sufiBcient surface self-diflfiision can occur so that entire step edges move in a concerted maimer. Although it does not achieve atomic resolution, the low-energy electron microscopy (LEEM) technique allows for the observation of the movement of step edges in real time [H]. LEEM has also been usefiil for studies of epitaxial growth and surface modifications due to chemical reactions. [Pg.293]

Fukunishi Y and Nakatsu] H 1992 Modifications for ab initio calculations of the moderately large-embedded-cluster model. Hydrogen adsorption on a lithium surface J. Chem. Phys. 97 6535-43... [Pg.2236]

Taha, H. Konopacki, S. and Gabersek, S. (1999). "Impacts of Large-Scale Surface Modifications on Meteorological Conditions and Energy Use A 10-Region Modeling Study. Theoretical and Applied Climatology 62 (3-4) 175-185. [Pg.308]

Rebenne, H. E., and Bhat, D. G., Effect of Diffusion Interface on Adhesion and Machining Performance of TiN-Coated Silicon-Nitride Cutting Tools, Proc. ThirdInt. Conf. on Surface Modification Technologies, Neuchatel, Switzerland (Aug., 1989)... [Pg.463]

Furey, M. J. andKajdas, C., "Tribopolymerization as a Mechanism of Boundary Lubrication, Surface Modification and Mechanisms, G. E. Totten and H. Liang, Eds., Marcel Dekker, New York and Basel, 2004, pp. 165-201. [Pg.94]

Waddell W.H., Evans L.R., Gillick J.G., and Shuttleworth D. Polymer surface modification. Rubber Chem. TechnoL, 65, 687, 1992. [Pg.157]

Mirzadeh H, Khorasani MT, and Sammez P. Laser surface modification of polymers A novel technique for the preparation of blood compatible materials-II In vitro assay. Iranian Polym, 1998, 7, 5. [Pg.254]

Shanmugharaj, A.M., Kim, J.K., and Ryu, S.H., UV surface modification of waste tire powder Characterization and its influence on the properties of polypropylene/waste powder composites. Polymer Test., 24, 739, 2005. [Pg.1064]

Spanhel L, Haase M, Weller H, Henglein A (1987) Photochemistry of colloidal semiconductors. 20. Surface modification and stability of strong luminescing CdS particles. J Am Chem Soc109 5649-5655... [Pg.303]

Yoon, S., Kim, H., and Oh S. M., Surface modification of graphite by coke coating for reduction of initial irreversible capacity in lithium secondary batteries, J. Power Sources (2001), 94, 68-73. [Pg.386]

King, S-S., Kadoma, Y., Ikuta, H., Uchimoto, Y., and Wakihara, M., Electrochemical performance of natural graphite by surface modification using aluminum, Electrochemical and Solid-State Letters, (2001) 4 (8), A109-A112. [Pg.387]

Takemoto N, Teramura Y, Iwata H (2011) Islet surface modification with urokinase through DNA hybridization. Bioconjug Chem 22 673-678... [Pg.199]

Teramura Y, Iwata H (2010) Cell surface modification with polymers for biomedical studies. Soft Matter 6 1081-1091... [Pg.199]

Teramura Y, Iwata H (2011) Improvement of graft survival by surface modification with poly (ethylene glycol)-lipid and urokinase in intraportal islet transplantation. Transplantation 91 271-278... [Pg.199]

Teramura Y, Iwata H (2008) Islets surface modification prevents blood-mediated inflammatory responses. Bioconjug Chem 19 1389-1395... [Pg.199]

Teramura Y, Iwata H (2009) Surface modification of islets with PEG-lipid for improvement of graft survival in intraportal transplantation. Transplantation 88 624-630... [Pg.199]

One additional problem at semiconductor/liquid electrolyte interfaces is the redox decomposition of the semiconductor itself.(24) Upon Illumination to create e- - h+ pairs, for example, all n-type semiconductor photoanodes are thermodynamically unstable with respect to anodic decomposition when immersed in the liquid electrolyte. This means that the oxidizing power of the photogenerated oxidizing equivalents (h+,s) is sufficiently great that the semiconductor can be destroyed. This thermodynamic instability 1s obviously a practical concern for photoanodes, since the kinetics for the anodic decomposition are often quite good. Indeed, no non-oxide n-type semiconductor has been demonstrated to be capable of evolving O2 from H2O (without surface modification), the anodic decomposition always dominates as in equations (6) and (7) for... [Pg.71]

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