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Imperial College Press

Scanning Transmission Electron Microscopy Of Nanomaterials: Basics Of Imaging And Analysis: Basics of Imaging and Analysis

Scanning Transmission Electron Microscopy Of Nanomaterials: Basics Of Imaging And Analysis: Basics of Imaging and Analysis

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The basics, present status and future prospects of high-resolution scanning transmission electron microscopy (STEM) are described in the form of a textbook for advanced undergraduates and graduate students. This volume covers recent achievements in the field of STEM obtained with advanced technologies such as spherical aberration correction, monochromator, high-sensitivity electron energy loss spectroscopy and the software of image mapping. The future prospects chapter also deals with z-slice imaging and confocal STEM for 3D analysis of nanostructured materials.Contents:
  •  
    • Introduction (N Tanaka)
    • Historical Survey of the Development of STEM Instruments (N Tanaka)
  • Basic Knowledge of STEM:
    • Basics of STEM (N Tanaka and K Saitoh)
    • Application of STEM to Nanomaterials and Biological Specimens (N Shibata, S D Findlay, Y Ikuhara and N Tanaka)
  • Theories of STEM Imaging:
    • Theory for HAADF-STEM and Its Image Simulation (K Watanabe)
    • Theory for Annular Bright Field STEM Imaging (S D Findlay, N Shibata and Y Ikuhara)
    • Electron Energy-Loss Spectroscopy in STEM and Its Imaging (K Kimoto)
    • Density Functional Theory for ELNES in STEM-EELS (T Mizoguchi)
  • Advanced Methods in STEM:
    • Aberration Correction in STEM (H Sawada)
    • Secondary Electron Microscopy in STEM (H Inada and Y Zhu)
    • Scanning Confocal Electron Microscopy (K Mitsuishi and M Takeguchi)
    • Electron Tomography in STEM (N Tanaka)
    • Electron Holography and Lorentz Electron Microscopy in STEM (N Tanaka)
    • Recent Topics and Future Prospects in STEM (N Tanaka)

Readership: Graduate students and researchers in the field of nanomaterials and nanostructures.Key Features:
  • Most advanced; befitting beginning graduate students
  • Very convenient for advanced researchers who would like to use STEM and have a comprehensive understanding of the theory of image contrast and application details
  • Spans from the basic theory to the applications of STEM
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