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Crystallography and Surface Structure : an Introduction for Surface Scientists and Nanoscientists.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Hermann, Klaus
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Newark : Wiley, 2016.
Edición:2nd ed.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright; Contents; Preface to the Second Edition; Preface to the First Edition; Chapter 1 Introduction; Chapter 2 Bulk Crystals: Three-Dimensional Lattices; 2.1 Basic Definition; 2.2 Representation of Bulk Crystals; 2.2.1 Alternative Descriptions Conserving the Lattice Representation; 2.2.2 Alternative Descriptions Affecting the Lattice Representation; 2.2.2.1 Cubic, Hexagonal, and Trigonal Lattices; 2.2.2.2 Superlattices and Repeated Slabs; 2.2.2.3 Linear Transformations of Lattice Vectors; 2.2.3 Centered Lattices; 2.3 Periodicity Cells of Lattices; 2.4 Lattice Symmetry.
  • 2.5 Reciprocal Lattice2.6 Neighbor Shells; 2.7 Nanoparticles and Crystallites; 2.8 Incommensurate Crystals and Quasicrystals; 2.8.1 Modulated Structures; 2.8.2 Incommensurate Composite Crystals; 2.8.3 Quasicrystals; 2.9 Exercises; Chapter 3 Crystal Layers: Two-Dimensional Lattices; 3.1 Basic Definition, Miller Indices; 3.2 Netplane-Adapted Lattice Vectors; 3.3 Symmetrically Appropriate Lattice Vectors: Minkowski Reduction; 3.4 Miller Indices for Cubic and Trigonal Lattices; 3.5 Alternative Definition of Miller Indices and Miller Bravais Indices; 3.6 Symmetry Properties of Netplanes.
  • 3.6.1 Centered Netplanes3.6.2 Inversion; 3.6.3 Rotation; 3.6.4 Mirror Operation; 3.6.5 Glide Reflection; 3.6.6 Symmetry Groups; 3.7 Crystal Systems and Bravais Lattices in Two Dimensions; 3.8 Crystallographic Classification of Netplanes and Monolayers; 3.8.1 Oblique Netplanes; 3.8.2 Primitive Rectangular Netplanes; 3.8.3 Centered Rectangular Netplanes; 3.8.4 Square Netplanes; 3.8.5 Hexagonal Netplanes; 3.8.6 Classification Overview; 3.9 Exercises; Chapter 4 Ideal Single Crystal Surfaces; 4.1 Basic Definition, Termination; 4.2 Morphology of Surfaces, Stepped and Kinked Surfaces.
  • 4.3 Miller Index Decomposition4.4 Chiral and Achiral Surfaces; 4.5 Exercises; Chapter 5 Real Crystal Surfaces; 5.1 Surface Relaxation; 5.2 Surface Reconstruction; 5.3 Growth Processes; 5.4 Faceting; 5.5 Exercises; Chapter 6 Adsorbate Layers; 6.1 Definition and Classification; 6.2 Adsorbate Sites; 6.3 Wood Notation of Surface Structure; 6.4 High-Order Commensurate (HOC) Overlayers; 6.5 Interference Lattices; 6.5.1 Basic Formalism; 6.5.2 Interference and Wood Notation; 6.5.3 Anisotropic Scaling, Stretching, and Shifting; 6.6 Symmetry and Domain Formation.
  • 6.7 Adsorption at Surfaces and Chirality6.8 Exercises; Chapter 7 Experimental Analysis of Real Crystal Surfaces; 7.1 Experimental Methods; 7.2 Surface Structure Compilations; 7.3 Database Formats for Surface and Nanostructures; 7.4 Exercises; Chapter 8 Nanotubes; 8.1 Basic Definition; 8.2 Nanotubes and Symmetry; 8.3 Complex Nanotubes; 8.4 Exercises; Appendix A: Sketches of High-Symmetry Adsorbate Sites; A.1 Face-Centered Cubic (fcc) Surface Sites; A.2 Body-Centered Cubic (bcc) Surface Sites; A.3 Hexagonal Close-Packed (hcp) Surface Sites; A.4 Diamond Surface Sites.