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Double network hydrogels

Keywords Artificial cartilage Cell scaffold Double network Hydrogel Fow friction Strength Toughness... [Pg.205]

Gong JP, Katsuyama Y, Kurokawa T, Osada Y (2(X)3) Double network hydrogels with ex-... [Pg.244]

Tanaka Y. Kuwabara R, Na YH, Kurokawa T, Gong JP, Osada Y (2005) Determination of fracture energy of double network hydrogels. J Phys Chem B 109 11559-11562... [Pg.245]

Webber RE, Creton C, Brown HR, Gong JP (2007) Large strain hysteresis and Mullins effect of tough double-network hydrogels. Macromolecules 40 2919-2927... [Pg.245]

Tominaga T, Tirumala VR, Lin EK, Gong JP, Furukawa H, Osada Y Wu WL (2007) The molecular origin of enhanced toughness in double-network hydrogels A neutron scattering study. Polymer 48 7449-7454... [Pg.245]

Tominaga T, Tirumala VR, Lee S, Lin EK Gong JP, Wu WL (2008) Thermodynamic interactions in double-network hydrogels. J Phys Chem B 112 3903-3909... [Pg.245]

Nakayama A, Kakugo A, Gong JP, Osada Y, Takai M, Erata T, Kawano S (2004) High mechanical strength double-network hydrogel with bacterial cellulose. Adv Fund Mater 14 1124-1128... [Pg.245]

Yasuda K. Gong JP. Katsuyama Y, Nakayama A, Tanabe Y, Kondo E, Ueno M, Osada Y (2005) Biomechanical properties of high toughness double network hydrogels. Biomaterials 26 4469-4475... [Pg.248]

Yasuda K. Tanabe Y, Azuma C, Taniguro H, Onodera S, Suzuki A, Chen YM, Gong JP, Osada Y (2008) Biological responses of novel high-toughness double network hydrogels in muscle and the subcutaneous tissues. J Mater Sci Mater Med 19 1379-1387... [Pg.248]

Gong, J.P., Katsuyama, Y., Kurokawa, T., Osada, Y. Double network hydrogels with extremely high mechanical strength. Adv. Mater. 15, 1155-1158 (2003)... [Pg.18]

Azuma, C., Yasuda, K., Tanabe, Y., Taniguro, H., Kanaya, F., Nakayama, A., et al., 2007. Biodegradation of high-toughness double network hydrogels as potential materials for artificial cartilage. J. Biomed. Mater. Res. A 81, 373—380. [Pg.281]

Naficy, S. Razal, J. M. Whitten, P. G. Wallace, G. G. Spinks, G. M., ApH-Sensitive, Strong Double-Network Hydrogel Poly(ethylene glycol) Methyl Ether Methacrylates-Poly(acrylic acid). J. Polym. Sci., PartB Polym. Phys. 2011, 50, 423-430. [Pg.187]

Tanaka, Y. Kuwabara, R. Na, Y.-H. Kurokawa, T. Gong, J. P. Osada, Y, Determination of Fracture Energy of High Strength Double Network Hydrogels. J. Phys. Chem. B. 2005,109,11559-11562. [Pg.187]

Gao G, Du G, Cheng Y, Fu J (2014) Tough nanocomposite double network hydrogels reinforced with clay nanorods through covalent bonding and reversible chain adsorption. J Mater Chem B 2 1539-1548... [Pg.78]

Gong JP, et al. Double-network hydrogels with extremely high mechanical strength. Adv Mater 2003 15(14) 1155. [Pg.521]

Webber, R. E., Cretan, C., Brown, H. R. and Gong, J. P. (2007) Large Strain Hysteresis and Mullins Effect of Tough Double-Network Hydrogels, Macromolecules, 40, 2919-27. [Pg.37]

Jang, S. S., William, I., Goddard, A., et al. (2007) Mechanical and Transport Properties of the Poly(ethylene oxide)-Poly(acrylic acid) Double Network Hydrogel from Molecular Dynamic Simulations, J. Phys. Chem. B, 111, 1729-37. [Pg.37]

Huang, P., Chen, W.F., Yan, L.F., 2013. An inorganic-organic double network hydrogel of graphene and polymer. Nanoscale 5, 6034—6039. [Pg.542]

Wang, Q., Hou, R., Cheng, Y., Fu, J., 2012. Super-tough double-network hydrogels reinforced by covalently compositing with silica-nanoparticles. Soft Matter 8, 6048—6056. [Pg.546]

See other pages where Double network hydrogels is mentioned: [Pg.208]    [Pg.248]    [Pg.451]    [Pg.34]    [Pg.36]    [Pg.50]    [Pg.37]    [Pg.37]    [Pg.365]    [Pg.25]    [Pg.761]   
See also in sourсe #XX -- [ Pg.205 ]



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