By Eduardo Ruiz-Hitzky, Katsuhiko Ariga, Yuri M. Lvov
This prepared reference is the 1st to collate the interdisciplinary wisdom from fabrics technological know-how, bioengineering and nanotechnology to provide an in-depth assessment of the subject. As such, it presents wide assurance of combos among inorganic fabrics and such key organic constructions as proteins, enzymes, DNA, or biopolymers. With its remedy of varied software instructions, together with bioelectronic interfacing, tissue fix, porous membranes, sensors, nanocontainers, and DNA engineering, this can be crucial interpreting for fabrics engineers, scientific researchers, catalytic chemists, biologists, and people operating within the biotechnological and semiconductor industries.
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Extra info for Bio-inorganic Hybrid Nanomaterials - Strategies Syntheses Characterization and Applications
J. (2005) Nanotechnology, 16, 1828–1835. R. K. (2006) Current Nanoscience, 2, 155–177. S. G. W. G. V. McIntire), Elsevier Science Ltd, Oxford, Ch. 5. , Pompe, W. and Watari, F. (2005) Journal of Biomedical j35 36 j 1 An Introduction to Bio-nanohybrid Materials 95 96 97 98 99 100 101 102 103 104 105 106 107 Materials Research Part B, 75B, 464–472. F. R. (2006) Advanced Engineering Materials, 8, 97–100. , Gabbanelli, F. and Biagini, G. (2005) Acta Biomaterialia, 1, 343–351. , Ramanan, A. R. (2006) Journal of Applied Polymer Science, 102, 5162–5165.
These examples illustrate the increasing interest in the subject of HAP-based biohybrid materials, which has led to almost 400 articles appeared in scientiﬁc journals in 2006 alone. Given that macroporosity is an important requirement for materials used as implants in regenerative medicine, many of the developed HAP-based materials try to mimic not only the composition but also the porous structure of true bone. For this reason, different techniques such as ﬁber bonding, phase separation, solvent casting/particle leaching, gas foaming, and emulsiﬁcation/freeze-drying, are being tested to create superporous matrices with interconnected pores [92,108].
Letaief, S. and Prévot, V. (2002) Advanced Materials, 14, 439–443. org/wiki/ Ceramic. , Vázquez, M. and Ruiz-Hitzky, E. 1039/ b706011d. 74 Murugan, R. and Ramakrishna, S. (2005) Composites Science and Technology, 65, 2385–2406. , Ma, Y. and Cölfen, H. (2007) Journal of Materials Chemistry, 17, 415–449. , Kuypers, S. and Dubois, P. (2001) Journal of Structural Biology, 134, 56–66. , Merle, P. , Allemand, D. and Payan, P. (2003) Calciﬁed Tissue International, 72, 717–725. , Servos, G. G. (2005) Journal of Crystal Growth, 283, 1–7.