Abstract
The techniques of electron diffraction, high-resolution electron microscopy, and energy dispersive analysis of X-rays are applied simultaneously to preparations of mixed (Cs,Ba)-titanates. It is shown that Cs does not substitute randomly for Ba in the hollandite-related phase Ba 2Ti 9O 20 but instead forms a Cs-titanate having probable stoichiometry Cs 2Ti 4O 9. For some sample preparation conditions (≦ 1200°C) lamellae of a Cs-titanate phase were observed to coherently intergrow with Ba 2Ti 9O 20. However, such intergrowths are probably metastable since for preparation temperatures ≧ 1350°C two distinct phases occurred, being essentially pure Ba 2Ti 9O 20 and Cs 2Ti 4O 9. The Cs-titanate phase appears to have structure different than previously reported, since neither single crystal electron diffraction patterns nor X-ray powder patterns could be indexed using unit cell parameters reported previously for Cs 2Ti 4O 9.
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