受主掺杂 Pb 基铁电体中晶体剪切面氧空位的捕获。

Trapping of Oxygen Vacancies at Crystallographic Shear Planes in Acceptor-Doped Pb-Based Ferroelectrics.

机构信息

EMAT, University of Antwerp, Groenenborgerlaan 171, 2020, Antwerp (Belgium).

National Institute of Chemical Physics and Biophysics, 12618, Tallinn (Estonia).

出版信息

Angew Chem Int Ed Engl. 2015 Dec 1;54(49):14787-90. doi: 10.1002/anie.201507729. Epub 2015 Oct 21.

DOI:10.1002/anie.201507729

PMID:26486259

Abstract

The defect chemistry of the ferroelectric material PbTiO3 after doping with Fe(III) acceptor ions is reported. Using advanced transmission electron microscopy and powder X-ray and neutron diffraction, we demonstrate that even at concentrations as low as circa 1.7% (material composition approximately ABO2.95), the oxygen vacancies are trapped into extended planar defects, specifically crystallographic shear planes. We investigate the evolution of these defects upon doping and unravel their detailed atomic structure using the formalism of superspace crystallography, thus unveiling their role in nonstoichiometry in the Pb-based perovskites.

摘要

报道了铁电材料 PbTiO3 掺杂 Fe(III) 受主离子后的缺陷化学。通过先进的透射电子显微镜以及粉末 X 射线和中子衍射，我们证明，即使在低浓度（约为 ABO2.95 的材料组成）下，氧空位也会被捕获到扩展的平面缺陷中，特别是晶体剪切面。我们研究了掺杂过程中这些缺陷的演变，并使用超空间晶体学的形式体系来揭示它们的详细原子结构，从而揭示它们在基于 Pb 的钙钛矿中对非化学计量比的作用。

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受主掺杂 Pb 基铁电体中晶体剪切面氧空位的捕获。

Trapping of Oxygen Vacancies at Crystallographic Shear Planes in Acceptor-Doped Pb-Based Ferroelectrics.

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