Download Carbon-based Nanomaterials and Hybrids: Synthesis, by Hans J. Fecht, Kai Brühne PDF

By Hans J. Fecht, Kai Brühne

In fresh a long time nanotechnology has built right into a hugely multidisciplinary subject, drawing from a few fields comparable to physics, fabrics technological know-how, biomedicine, and varied engineering disciplines. The good fortune of nanoscience- and nanotechnology-related examine and items is attached with the technological exploitation of dimension results in constructions and fabrics and is, for this reason, regarding its influence at the society of the future.

This latest pattern has been taken up right here and represents the focus of this ebook utilized to carbon-based fabrics, together with nanocrystalline diamond, aerogels, and carbon nanotubes. The ebook compiles and info state-of-the-art study, and a number of other purposes are defined in the box of strength, microelectronics, and biomedicine. past that, a point of view is given together with a range of commercial functions and marketplace possibilities for C-based nanoscale fabrics and units within the future.

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106. L. (2002). Structure and defects of vapor-phasegrown diamond nanocrystals, Appl. Phys. , 80, 13, pp. 2269–2271. 107. , and Lifshitz, Y. (2002). Manipulation of the equilibrium between diamond growth and renucleation to form a nanodiamond/amorphous carbon composite, Appl. Phys. , 80, 18, pp. 3307–3309. 108. L. (1993). Moire fringe images of twin boundaries in chemical vapor deposited diamond, Appl. Phys. , 62, pp. 487–489. 109. H. (2005). The effect of growth rate control on the morphology of nanocrystalline diamond, Diamond Relat.

64. E. (1994). Chemical polishing of diamond, Surf. Coat. , 68–69(C), pp. 374–377. 65. , and Ruan, J. (1993). Tribological properties of polished diamond films, J. Appl. , 74, pp. 4174–4180. 66. , and Wilks, J. (1972). The resistance of diamond to abrasion, J. Phys. D: Appl. , 5, pp. 1902–1919. 67. M. (1994). Deposition and characterization of nanocrystalline diamond films, J. Vac. Sci. Technol. A, 12, pp. 1491–1495. 68. , and Ehrhardt, H. (1993). Preparation of smooth and nanocrystalline diamond films, Diamond Relat.

1625–1631. 49. , and Hogmark, S. (1995). Residual stress, Young’s modulus and fracture stress of hot flame deposited diamond, Thin Solid Films, 270, pp. 137–142. 50. M. Accurate measurement of strength and fracture toughness for miniaturesize thick diamond-film samples by three-point bending at constant loading rate, Diamond Relat. , 10, pp. 770–774. 51. , and Mavoori, H. (1998). Processing and properties of CVD diamond for thermal management, J. Electron. , 27, pp. 1148– 1153. 52. M. (2005). Thermal conductivity of poly- and nanorystalline diamond films grown in microwave plasma, in II France-Russia Seminar, New Achievements in Material Science (Moscow, Russia).

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