International Tables for Crystallography (2006). Vol. B. ch. 4.5, pp. 466-485   | 1 | 2 |
https://doi.org/10.1107/97809553602060000567

Chapter 4.5. Polymer crystallography

Contents

  • 4.5. Polymer crystallography  (pp. 466-485) | html | pdf | chapter contents |
    R. P. Millane and D. L. Dorset
    • 4.5.1. Overview  (p. 466) | html | pdf |
      R. P. Millane and D. L. Dorset
    • 4.5.2. X-ray fibre diffraction analysis  (pp. 466-481) | html | pdf |
      R. P. Millane
      • 4.5.2.1. Introduction  (pp. 466-467) | html | pdf |
      • 4.5.2.2. Fibre specimens  (p. 467) | html | pdf |
      • 4.5.2.3. Diffraction by helical structures  (pp. 467-469) | html | pdf |
        • 4.5.2.3.1. Helix symmetry  (pp. 467-468) | html | pdf |
        • 4.5.2.3.2. Diffraction by helical structures  (pp. 468-469) | html | pdf |
        • 4.5.2.3.3. Approximate helix symmetry  (p. 469) | html | pdf |
      • 4.5.2.4. Diffraction by fibres  (pp. 469-472) | html | pdf |
        • 4.5.2.4.1. Noncrystalline fibres  (p. 469) | html | pdf |
        • 4.5.2.4.2. Polycrystalline fibres  (pp. 469-470) | html | pdf |
        • 4.5.2.4.3. Random copolymers  (pp. 470-471) | html | pdf |
        • 4.5.2.4.4. Partially crystalline fibres  (pp. 471-472) | html | pdf |
      • 4.5.2.5. Processing diffraction data  (pp. 472-474) | html | pdf |
      • 4.5.2.6. Structure determination  (pp. 474-481) | html | pdf |
        • 4.5.2.6.1. Overview  (pp. 474-475) | html | pdf |
        • 4.5.2.6.2. Helix symmetry, cell constants and space-group symmetry  (p. 475) | html | pdf |
        • 4.5.2.6.3. Patterson functions  (pp. 475-476) | html | pdf |
        • 4.5.2.6.4. Molecular model building  (pp. 476-477) | html | pdf |
        • 4.5.2.6.5. Difference Fourier synthesis  (pp. 477-478) | html | pdf |
        • 4.5.2.6.6. Multidimensional isomorphous replacement  (pp. 478-479) | html | pdf |
        • 4.5.2.6.7. Other techniques  (pp. 479-480) | html | pdf |
        • 4.5.2.6.8. Reliability  (pp. 480-481) | html | pdf |
    • 4.5.3. Electron crystallography of polymers  (pp. 481-485) | html | pdf |
      D. L. Dorset
      • 4.5.3.1. Is polymer electron crystallography possible?  (p. 481) | html | pdf |
      • 4.5.3.2. Crystallization and data collection  (pp. 481-482) | html | pdf |
      • 4.5.3.3. Crystal structure analysis  (pp. 482-483) | html | pdf |
      • 4.5.3.4. Examples of crystal structure analyses  (pp. 483-485) | html | pdf |
    • References | html | pdf |
    • Figures
      • Fig. 4.5.2.1. Fibre diffraction geometry (see text)  (p. 473) | html | pdf |
      • Fig. 4.5.2.2. Flow chart of the molecular-model-building approach to structure determination (Arnott, 1980)  (p. 476) | html | pdf |
      • Fig. 4.5.3.1. Initial potential map for poly-γ-methyl-L-glutamate (plane group pg) found with phases generated by the Sayre equation  (p. 484) | html | pdf |
      • Fig. 4.5.3.2. Crystal structures of linear polymers determined from three-dimensional data  (p. 484) | html | pdf |
    • Tables
      • Table 4.5.3.1. Structure analysis of poly-γ-methyl-L-glutamate in the β form  (p. 483) | html | pdf |