Horst-Günter Rubahn

Basics of Nanotechnology

• Broschiertes Buch

Produktbeschreibung

Klar strukturiert, leicht verständlich und mit viel experimenteller Erfahrung verfasst ist dieses zum dritten Mal aufgelegte Lehrbuch der Nanotechnologie. Aus Vorlesungsmanuskripten entwickelt, erläutert es zunächst die Physik der Nanostrukturen, Aufwachsverfahren, Manipulation und Charakterisierung (Schwerpunkt: optische Verfahren), um dann zu neuesten Anwendungen von Nanoarchitekturen in der Optik, Elektronik und Biologie sowie bei der Entwicklung von Quantencomputern und molekularen Nanostrukturen überzuleiten. Für diese Auflage erweitert wurde die Diskussion von klassischen und Quanteneffekten und von magnetischen Strukturen.
Mit seinen zahlreichen Übungsaufgaben eignet sich der Band hervorragend als Vorlesungsbegleiter für Studenten; Grundkenntnisse in der Festkörperphysik werden vorausgesetzt. Empfehlenswert auch zum Nachschlagen für die Praxis in Physik, Chemie und Materialwissenschaften.

Produktdetails

• Physics Textbook
• Verlag: Wiley-VCH
• 3. Aufl.
• Seitenzahl: 226
• Erscheinungstermin: Oktober 2008
• Englisch
• Abmessung: 245mm x 172mm x 12mm
• Gewicht: 466g
• ISBN-13: 9783527408009
• ISBN-10: 3527408002
• Artikelnr.: 23411594

Autorenporträt

Horst-Günter Rubahn is Professor at the Mads Clausen Institute of the University of Southern Denmark (SDU) and head of the nanotechnology department with proficient teaching experience in nonlinear optics and spectroscopy, surface science and nanotechnology. His research activities concentrate on the development of new bottom up nanotechnology techniques as well as photonics methods such as nonlinear optical microscopies, evanescent wave spectroscopy, and advanced laser materials treatments. H.-G. Rubahn heads also the nanotechnology center NanoSYD of SDU (www.nanosyd.sdu.dk) and a Ph.D. school on mesoscopic structures and optics. He is founder of a start up company which develops organic nanofibers for the implementation in new nano-photonic devices.

Inhaltsangabe

1 Mesoscopic and microscopic physics

2 Physics of nanostructures (quantum and classical effects)
Morphology
Electronic structure - Optical properties - Magnetic properties - Transport phenomena - Heterostructures
Problems to chapter 2

3 Generation and manipulation of nanostructures
Top-down methods - Nanostructures via photons and lithographical methods - Nanoimprint technology - Nanostructures via raster probe methods -Bottom up methods - Epitaxial growth - Self organization - Deposition of selected cluster matter
Problems to chapter 3

4 Characterisation of nanostructures
Optical microscopy - Simple light microscopy - Bright- and dark field microscopy - Fluorescence and phase contrast microscopy - Confocal microscopy - Brewster angle microscopy - Raster microscopies - Electron microscopy - Scanning probe microscopies - Near field microscopy - New advanced microscopies - Linear and nonlinear spectroscopy - Diffraction methods - Emission methods
Problems to chapter 4

5 Nano architecture
Layered systems - Colloidal solutions and crystals - Light-based gratings - Coulomb crystals

6 Applications
Optics - Integrated optics, nanooptics and nonlinear optics - Optical and magnetical data storage - Photonic crystals - Ultrashort time dynamics in nanostructures
Electronics - Optoelectronics - Molecular and nano-electronics - Quantum computers - Biology and soft matter - Characterization of elementary units - Nanobionics and nano-biotechnology - Molecular nanostructures - Micro- and nanomechanics
Problems to chapter 6

References

Index

Rezensionen

"[..] preparing an account of basic nanotechnology which is appealing and accessible to readers from all these disciplines is a critical task for an author; Dr. Rubahn did rather well in this respect. [..] The book meets the goal of providing an accessible introduction to a very diverse group of readers [..]; its strengths lie in the presentation of various aspects of nanotechnology and the inclusion of some basic concepts. As there are not many books introducing nanotechnology at this level, this type of contribution to the literature is welcome. It is a recommended reading for scientists and engineers who would like to be introduced broadly to nanoscience and nanotechnology. [..] Overall, I highly recommend this textbook for the reader's library reference shelf." (Jn. of Nanotechnology, Vol. 3, March 2009)