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Fundamentals of Crystallography, Powder X-ray Diffraction, and Transmission Electron Microscopy for Materials Scientists

Dong ZhiLi
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advanced crystallography concepts
Atomic Scattering Factor
atomic scattering factors
Author_Dong ZhiLi
Back Focal Plane
Bragg Condition
Category=PNF
Crystal Structure Characteristics
Diffracted Beam
Diffracted X-ray Beams
electron diffraction
Electron Diffraction Patterns
electron microscopy training
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Ewald Sphere
Ewald Sphere Construction
geometry of diffracted x-ray beams
Hexagonal Axes
HRTEM
HRTEM Image
intensity of diffracted x-ray beams
Interplanar Angle
materials characterization
Miller Bravais Indices
Multiplicity Factors
Objective Lens Aperture
Polycrystal Sample
powder diffraction techniques
quantitative phase analysis
Reciprocal Lattice Point
Reciprocal Lattices
reciprocal space analysis
Rhombohedral Cell
Rietveld Refinement
solid state physics
Symmetry Elements
symmetry operations
TEM
Three-fold Rotation
Trigonal System
Wyckoff Site
XRD

Product details

  • ISBN 9781032246802
  • Weight: 500g
  • Dimensions: 156 x 234mm
  • Publication Date: 27 Nov 2025
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

The structure–property relationship is a key topic in materials science and engineering. To understand why a material displays certain behaviors, the first step is to resolve its crystal structure and reveal its structure characteristics. Fundamentals of Crystallography, Powder X-ray Diffraction, and Transmission Electron Microscopy for Materials Scientists equips readers with an in-depth understanding of using powder x-ray diffraction and transmission electron microscopy for the analysis of crystal structures.

  • Introduces fundamentals of crystallography
  • Covers XRD of materials, including geometry and intensity of diffracted x-ray beams and experimental methods
  • Describes TEM of materials and includes atomic scattering factors, electron diffraction, and diffraction and phase contrasts
  • Discusses applications of HRTEM in materials research
  • Explains concepts used in XRD and TEM lab training

Based on the author’s course lecture notes, this text guides materials science and engineering students with minimal reliance on advanced mathematics. It will also appeal to a broad spectrum of readers, including researchers and professionals working in the disciplines of materials science and engineering, applied physics, and chemical engineering.
About Dong ZhiLi

Dr. ZhiLi Dong received his B.Eng. degree in metallic materials engineering from Tsinghua University in 1984. Dong obtained his Ph.D. degree from Tsinghua University in 1989 under the Joint Ph.D. Program of the Ministry of Education of China. Dong received the Japanese Government Scholarship and carried out his PhD research at Osaka University in 1987 and 1988.

Dong developed his research in the areas of materials engineering, synthesis of geo-mimetic materials, crystal structure/electronic structure-property relationships, and interface structure analysis. He has more than thirty years’ experience in x-ray diffraction and transmission electron microscopy of materials.

Dong is an Associate Professor in the School of Materials Science & Engineering of Nanyang Technological University. Prior to joining NTU, Dong worked at the Environmental Technology Institute of Singapore as a senior research scientist, School of Mechanical and Production Engineering of NTU as a research fellow, University of Barcelona as a visiting professor, and Tsinghua University as a lecturer.

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