Ferroelectric domains in coarse-grained lead zirconate titanate ceramics characterized by scanning force microscopy

  • Autor:

    Munoz-Saldana, J; Hoffmann, MJ; Schneider, GA

  • Quelle:

     JOURNAL OF MATERIALS RESEARCH, 2003, Band 18, Heft 8, S. 1777–1786

  • Ferroelectric domains in coarse-grained lead zirconate titanate ceramics characterized by scanning force microscopy.

Abstract

Ferroelectric domain configurations in silver- and lanthanum-doped lead zirconate titanate (PZT) ceramics were characterized by scanning force microscopy using contact as well as piezoelectric response force [i.e., piezoelectric force microscopy (PFM)] modes. Coarse crystallites of hard and soft PZT ceramics (12 mum in Ag-PZT and 30 mum in La-PZT average grain size, respectively) with surface oriented in the {001} planes were chosen to characterize the domain configuration. Results show the conventional right-angled domain structures, which correspond to the {110} twin-related 90degrees and 180degrees domains of homogeneous width from 50 to 150 nm. The ability of PFM to image the orientation of pure in-plane arrays of domains (containing 90degrees-aa- and 180degrees-aa-types of domain boundaries) is highlighted, and a more detailed notation for in-plane domains is proposed. In addition to such periodical domain arrays. other ordered domains were found, having a misfit of 26degrees with respect to the {110} domain walls and the {100} surface. This array of domain walls could not be predicted with a geometrical analysis of the intersection of domain walls at the surface according to the conventional spatial array of {110} crystallographic planes. It could be explained only with {210} planes being the domain walls. The reason for this unconventional domain configuration is explained with the clamped conditions of the investigated crystallites in the polycrystalline material.