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B01=Peter D. Nellist
B01=Stephen J. Pennycook
Category1=Non-Fiction
Category=PHFC
Category=PHVN
Category=TBN
Category=TGMT
Category=TJFD
COP=United States
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Language_English
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Scanning Transmission Electron Microscopy: Imaging and Analysis

English

Scanning transmission electron microscopy has become a mainstream technique for imaging and analysis at atomic resolution and sensitivity, and the authors of this book are widely credited with bringing the field to its present popularity. Scanning Transmission Electron Microscopy(STEM): Imaging and Analysis will provide a comprehensive explanation of the theory and practice of STEM from introductory to advanced levels, covering the instrument, image formation and scattering theory, and definition and measurement of resolution for both imaging and analysis. The authors will present examples of the use of combined imaging and spectroscopy for solving materials problems in a variety of fields, including condensed matter physics, materials science, catalysis, biology, and nanoscience. Therefore this will be a comprehensive reference for those working in applied fields wishing to use the technique, for graduate students learning microscopy for the first time, and for specialists in other fields of microscopy.

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Current price €202.34
Original price €212.99
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Age Group_Uncategorizedautomatic-updateB01=Peter D. NellistB01=Stephen J. PennycookCategory1=Non-FictionCategory=PHFCCategory=PHVNCategory=TBNCategory=TGMTCategory=TJFDCOP=United StatesDelivery_Delivery within 10-20 working daysLanguage_EnglishPA=AvailablePrice_€100 and abovePS=Activesoftlaunch
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Product Details
  • Publication Date: 22 Mar 2011
  • Publisher: Springer-Verlag New York Inc.
  • Publication City/Country: United States
  • Language: English
  • ISBN13: 9781441971999

About

Stephen J. Pennycook obtained his B.A. degree in natural sciences from the University of Cambridge England in 1975 and his M.A. and Ph.D. degrees in physics from the same institution in 1978. He then continued at the University of Cambridge Cavendish Laboratory in postdoctoral positions until moving to the ORNL Solid State Division in 1982 where he is now the leader of the Electron Microscopy Group. His main research interest is the study of materials through the technique of Z-contrast scanning transmission electron microscopy (STEM). This technique provides a directly interpretable image of materials at the atomic scale in which higher atomic numbers (Z) show brighter. It overcomes the phase problem associated with conventional electron microscopy and diffraction techniques by establishing incoherent imaging conditions the electron equivalent of incoherent imaging in the optical microscope first described by Lord Rayleigh in 1895. Currently the Solid State Division's 300-kV STEM produces the world's smallest electron probe just 1.3 angstroms in diameter. The development of the Z-contrast technique has earned Dr. Pennycook an R&D 100 Award the Heinrich Award from the Microbeam Analysis Society a U.S. Department of Energy (DOE) Award for Outstanding Achievement in Solid State Sciences and the Materials Research Society Medal. Recently his research has focused on grain boundaries in ceramics which resulted in a DOE Award for Outstanding Achievement in Metallurgy and Ceramics as well as applications to optoelectronic materials catalysts and nanoparticles. Dr Peter D. Nellist's research centres on the applications and development of high-resolution electron microscope techniques in particular scanning transmission electron microscopy (STEM) including atomic resolution Z-contrast imaging electron energy-loss spectroscopy and applications of spherical aberration correctors. His technique development work includes methods for the three-dimensional imaging and spectroscopy of materials and methods to allow high resolution imaging and spectroscopy of radiation sensitive materials. The aim is to use microscopy data in a quantitative way to make measurements of the atomic and electronic structure of materials.

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