Nanostructured Materials for Advanced Technological Applications

Nanostructured Materials for Advanced Technological Applications

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Nanoscience and Nanotechnology are experiencing a rapid development in many aspects, like real-space atomic-scale imaging, atomic and molecular manipulation, nano-fabrication, etc. , which will have a profound impact not only in every field of research, but also on everyday life in the twenty-first century. The common efforts of researchers from different countries and fields of science can bring complementary expertise to solve the rising problems in order to take advantage of the nanoscale approaches in Materials Science. Nanostructured materials, i. e. materials made with atomic accuracy, show unique properties as a consequence of nanoscale size confinement, predominance of interfacial phenomena and quantum effects. Therefore, by reducing the dimensions of a structure to nanosize, many inconceivable properties will appear and may lead to different novel applications from na- electronics and nanophotonics to nanobiological systems and nanomedicine. All this requires the contribution of multidisciplinary teams of physicists, chemists, materials scientists, engineers and biologists to work together on the synthesis and processing of nanomaterials and nanostructures, und- standing the properties related to the nanoscale, the design of nano-devices as well as of new tools for the characterization of nano-structured materials. The first objective of the NATO ASI on Nanostructured Materials for Advanced Technological Applications was to assess the up-to-date achie- ments and future perspectives of application of novel nanostructured materials, focusing on the relationships material structure ? functional properties ? possible applications.Finally, the optical losses were directly measured by coupling light of a He/Ne laser via an opapplied can be found in Ref. 9. ... Schematical diagram of the ion beam deposition set-up used in this study. ... 3.9 3.9 Es (eV) a€“ a€“ 0a€“200 Js (mA/cm aˆ’2) a€“ a€“ 2.2 pAr (t) (10aˆ’2Pa) 4.2 4.2 4.2 PO2 (10aˆ’2Pa) a€“ 0a€“4 2.7 pAr (s) (10aˆ’2Pa) ... (10aˆ’2Pa) 4.2 4a€“8 9 9000 Ta2O5 14000 8000 7000 6000 5000 4000 3000 2000.

Title:Nanostructured Materials for Advanced Technological Applications
Author:Johann Reithmaier, Plamen Petkov, Wilhelm Kulisch, Cyril Popov
Publisher:Springer Science & Business Media - 2009-03-08


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