Diamond Thin Films book.
Diamond Thin Films book.
Drummond, C. Graham, J. Grice, P. John, .
Kulisch, Deposition of Superhard Diamond–Like Materials, Springer Tracts on Modern Physics, Heidelberg Berlin, 1999. Drummond, C. Morrison, Diamond Relat. CrossRefGoogle Scholar. Popov . Kulisch W. (2011) Nanocrystalline Diamond Films for Biosensor Applications. In: Reithmaier . Paunovic . Kulisch . Petkov P. (eds) Nanotechnological Basis for Advanced Sensors. NATO Science for Peace and Security Series B: Physics and Biophysics. First Online 23 March 2011.
A study of thin silicon dioxide films using infrared absorption techniques. JIB Wilson, JS Walton, G Beamson. in nanocrystalline diamond growth. JR Rabeau, P John, JIB Wilson, Y Fan. Journal of Applied Physics 96 (11), 6724-6732, 2004. Journal of Applied Physics 53 (6), 4166-4172, 1982. Journal of Electron Spectroscopy and Related Phenomena 121 (1-3), 183-201, 2001.
Thin film science is at the heart of many of our most advanced technologies. This book should prove invaluable not only to the university student but also to the professional who needs a broad overview of this important field. POATE, AT&T Bell Laboratories. Dr. Milton Ohring, author of two previously acclaimed Academic Press books,The Materials Science of Thin Films (l992) and Engineering Materials Science (1995), has taught courses on reliability and failure in electronics at Bell Laboratories (AT&T and Lucent Technologies).
Robert Butler "Bob" Wilson, Jr. (born May 16, 1937) is an American economist and the Adams Distinguished Professor of Management, Emeritus at Stanford University. He is known for his contributions to management science and business economics. His doctoral thesis introduced sequential quadratic programming, which became a leading iterative method for nonlinear programming.
Ultra-smooth nanocrystalline diamond (UNCD) films with high-acoustic wave velocity were introduced into ZnO-based surface acoustic wave (SAW) devices to enhance their microfluidic efficiency b. More).
Claiming your author page allows you to personalize the information displayed and manage publications. Ultra-smooth nanocrystalline diamond (UNCD) films with high-acoustic wave velocity were introduced into ZnO-based surface acoustic wave (SAW) devices to enhance their microfluidic efficiency b.
Diamond thin films have showed outstanding performance when exposed to extreme conditions such as high power plasmas
Diamond thin films have showed outstanding performance when exposed to extreme conditions such as high power plasmas. However there are always concerns about the stability of the diamond structure in the presence of other materials deposited on the film surface by plasma diffusion View. Facile hydrothermal synthesis of economically viable VO2(M1) counter electrode for dye sensitized solar cells.
This book deals with the deposition of a certain class of materials, namely the diamond-like superhard materials, in the form of thin films. Starting from concepts used to improve the hardness of a material, it is shown that the intrinsic hardness is highest for materials with low bond lengths, high coordination numbers, and low ionicities. It is further shown that such diamond-like materials (. diamond, cubic boron nitride, tetrahedrically bonded carbon nitride) are distinguished by a variety of other unique and extreme properties.