Advertisement

Clays and Clay Minerals

, Volume 23, Issue 2, pp 161–162 | Cite as

Critical Point Drying of Electron Microscope Samples of Clay Minerals

  • Donald L. Jernigan
  • James L. McAtee
Note

References

  1. Anderson, T. F. (1952) A method for eliminating gross artifacts in drying specimens: Extrait du Congres De Microscopic Electronique, Editions de la Revue d’Optique. Section V, 567–576.Google Scholar
  2. Gai, M. and Rich, C. I. (1972) Selectivity effect of cesium on clay size weathered mica; transmission electron microscopy studies: Clays and Clay Minerals 20, 175–379.CrossRefGoogle Scholar
  3. Güven, N. (1972) Electron optical observations on marble-head illite: Clays and Clay Minerals 20, 83–88.CrossRefGoogle Scholar
  4. Giiven, N. and Grim, R. E. (1972) X-Ray diffraction and electron optical studies on smectite and a-cristobalite associations: Clays and Clay Minerals 20, 89–92.CrossRefGoogle Scholar
  5. Jonas, E. C. and Oliver, R. M. (1967) Size and shape of montmorillonite crystallites: Clays and Clay Minerals 15, 27–33.CrossRefGoogle Scholar
  6. Mering, J. and Oberlin, A. (1967) Electron optical study of smectites: Clays and Clay Minerals 15, 3–25.CrossRefGoogle Scholar
  7. Roberson, H. E., Weir, A. H. and Woods, R. D. (1968) Morphology of particles in size-fractionated Na-montmoril-lonites: Clays and Clay Minerals 16, 239–247.CrossRefGoogle Scholar
  8. Uyeda, N., Hang, P. T. and Brindley, G. W. (1973) The nature of garnierites—II: electon optical study: Clays and Clay Minerals 21, 41–50.CrossRefGoogle Scholar
  9. Warren, D. C. and McAfee, J. L., Jr. (1968) A morphological study of selected synthetic clays by electron microscopy: Clays and Clay Minerals 16, 271–274.CrossRefGoogle Scholar

Copyright information

© The Clay Minerals Society 1975

Authors and Affiliations

  • Donald L. Jernigan
    • 1
  • James L. McAtee
    • 1
  1. 1.Chemistry DepartmentBaylor UniversityWacoUSA

Personalised recommendations