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Journal article
Structural refinement of Pbnm-type perovskite films from analysis of half-order diffraction peaks
Journal of applied physics, v 121(4), p45303
28 Jan 2017
Abstract
Engineering structural modifications of epitaxial perovskite thin films is an effective route to induce new functionalities or enhance existing properties due to the close relation of the electronic ground state to the local bonding environment. As such, there is a necessity to systematically refine and precisely quantify these structural displacements, particularly those of the oxygen octahedra, which is a challenge due to the weak scattering factor of oxygen and the small diffraction volume of thin films. Here, we present an optimized algorithm to refine the octahedral rotation angles using specific unit-cell-doubling half-order diffraction peaks for the a(-)a(-)c(+) Pbnm structure. The oxygen and A-site positions can be obtained by minimizing the squared-error between calculated and experimentally determined peak intensities using the (1/2 1/2 3/2) and (1/2 1/2 5/2) reflections to determine the rotation angle a about in-plane axes and the (1/2 5/2 1), (1/2 3/2 1), and (1/2 3/2 2) reflections to determine the rotation angle gamma about the out-of-plane axis, whereas the convoluting A-site displacements associated with the octahedral rotation pattern can be determined using (1 1 1/2) and (1/2 1/2 1/2) reflections to independently determine A-site positions. The validity of the approach is confirmed by applying the refinement procedure to determine the A-site and oxygen displacements in a NdGaO3 single crystal. The ability to refine both the oxygen and A-site displacements relative to the undistorted perovskite structure enables a deeper understanding of how structural modifications alter functionality properties in epitaxial films exhibiting this commonly occurring crystal structure. Published by AIP Publishing.
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Details
- Title
- Structural refinement of Pbnm-type perovskite films from analysis of half-order diffraction peaks
- Creators
- M. Brahlek - Pennsylvania State UniversityA. K. Choquette - Drexel UniversityC. R. Smith - Drexel UniversityR. Engel-Herbert - Pennsylvania State UniversityS. J. May - Drexel UniversityPennsylvania State Univ., University Park, PA (United States)
- Publication Details
- Journal of applied physics, v 121(4), p45303
- Publisher
- American Institute of Physics
- Number of pages
- 10
- Grant note
- DMR-1151649 / National Science Foundation; National Science Foundation (NSF) DE-AC02-06CH11357 / DOE Office of Science by Argonne National Laboratory; United States Department of Energy (DOE) DE-SC0012375 / Department of Energy; United States Department of Energy (DOE) 1151649 / Division Of Materials Research; National Science Foundation (NSF); NSF - Directorate for Mathematical & Physical Sciences (MPS)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Web of Science ID
- WOS:000393480100055
- Scopus ID
- 2-s2.0-85010791216
- Other Identifier
- 991019167457904721
InCites Highlights
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- Collaboration types
- Domestic collaboration
- Web of Science research areas
- Physics, Applied