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H. Shindo, and H. Nozoye
[Hyomen Kagaku, Vol. 15, pp. 452-455, 1994]
Cleavage surface of K4Nb6O17.3H2O, a layered compound with two different interlayer structures, were observed with Atomic force microscope (AFM)(Fig. 1). Comparison of the atom-resolved images with the crystal structure clearly showed that there are two different ways of cleavage. The more flexible but weaker interlayer was broken in a 'slow' cleavage with application of a very weak tensile force, while the stronger and more rapid interlayer was mainly broken in a 'rapid' cleavage with an excessive force. In estimation of cleavability, dynamic factors must be taken into account in addition to static parameters.
