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 offer an in-depth assessment of the subject. As such, it offers wide insurance 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 is often crucial interpreting for fabrics engineers, clinical researchers, catalytic chemists, biologists, and people operating within the biotechnological and semiconductor industries.
Read or Download Bio-inorganic Hybrid Nanomaterials - Strategies Syntheses Characterization and Applications PDF
Similar nanotechnology books
Nanotechnology has turn into a massive line of inquiry in fresh medical learn. Köhler (physical chemistry and microreaction know-how, Technical U. of Ilmenau, Germany) and Fritzsche (biotechnical microsystems, Institute for actual excessive expertise, Germany) current an creation to the rules of constructing nanostructures and their makes use of.
Patterning or lithography is on the center of contemporary technological know-how and expertise and cuts throughout all disciplines. With the emergence of nanotechnology, traditional tools in keeping with electron beam lithography and severe ultraviolet photolithography became prohibitively dear. hence, a couple of easy and unconventional tools were brought, starting first with study demonstrations within the mid Nineties.
This publication experiences fresh advances within the box of semiconductor quantum dots through contributions from well-liked researchers within the clinical neighborhood. precise concentration is given to optical, quantum optical, and spin homes of unmarried quantum dots.
- Ordered porous nanostructures and applications
- Metallic Micro and Nano Materials: Fabrication with Atomic Diffusion
- Nanocrystalline Materials
- Microrobotics: Methods and Applications
Extra resources for Bio-inorganic Hybrid Nanomaterials - Strategies Syntheses Characterization and Applications
Kojima, A. and Imae, T. (2005) Journal of Colloid and Interface Science, 285, 574–580. , Gonzalez, G. and Ruiz-Hitzky, E. (1997) International Journal of Polymeric Materials, 35, 61–70. L. and Rocha, J. (2005) Journal of Materials Chemistry, 15, 3952–3961. , Satubaldieva, D. P. D. (2004) Journal of Chromatography B, 800, 49–53. , Coradin, T. and Roux, C. (2004) in Functional Hybrid Materials (P. Gómez-Romero andC. Sanchez ) Wiley-VCH,Weinheim, Ch. 11. , Livage, J. and Coradin, T. (2006) Journal of Materials Chemistry, 16, 1178–1182.
M. G. (2006) Journal of Biological Chemistry, 281, (17), 12001–12009. E. J. (2000) Nature, 403, 289–292. , Steinitz-Kannan, M. J. (2003) Chemical Communications, 1122–1123. V. C. (2004) Journal of Materials Chemistry, 14, 2231–2241. 41 Sumper, M. and Kröger, N. (2004) Journal of Materials Chemistry, 14, 2059–2065. , Livage, J. and Coradin, T. (2006) Langmuir, 22, 9092–9095. , Boissière, M. and Livage, J. (2006) Current Nanoscience, 2, 219–230. , Coupé, A. and Livage, J. (2003) Colloids and Surfaces B Biointerfaces, 29, 189–196.
Shinomiya, K. and Tanaka, J. (2004) Cell Transplantation, 13, 451–461. 28 Berry, C. (2005) Journal of Materials Chemistry, 15, 543–547. , González-Carreño, T. J. (2003) Journal of Physics D-Applied Physics, 36, R182–R197. , Arias, V. and Yazdani-Pedram,M. (2003) Journal of Materials Research, 18, 487–494. , Bravo, J. and RuizHitzky, E. (2006) Chemistry of Materials, 18, 1602–1610. A. G. (1987) Biomaterials, 8, 67–69. G. A. (1996) Journal of Biomedical Materials Research, 30, 77–84. , Olmo, N.
Bio-inorganic Hybrid Nanomaterials - Strategies Syntheses Characterization and Applications by Eduardo Ruiz-Hitzky, Katsuhiko Ariga, Yuri M. Lvov