Picometer-scale atom position analysis in annular bright-field STEM imaging

Gao, Peng; Kumamoto, Akihito; Ishikawa, Ryo; Lugg, Nathan; Shibata, Naoya; Ikuhara, Yuichi

doi:10.1016/j.ultramic.2017.09.001

Cited by 53 publications

(44 citation statements)

References 60 publications

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“…Sources of noise, image distortions, small residual sample tilt, and, possibly, real sources of disorder (defects) lead to the presence of apparent displacements even in the undoped film. The displacements found in the undoped samples were comparable to those in SrTiO 3 reported in the literature [29]. We therefore defined an experimental error cutoff corresponding to the largest displacement found in the undoped sample (see Supplemental Material [28]).…”

Section: Methodsmentioning

confidence: 87%

“…To improve the signal-to-noise ratio and minimize scan distortions, 20 fast-scan images were recorded, cross-correlated, and then averaged [17]. Position averaged convergent beam diffraction (PACBED) patterns [27], shown in the Supplemental Material [28], were used to reduce the sample tilt to less than 1 mrad from the zone axis, which is important to minimize artifacts in the measured displacements [29]. Absolute column intensities, referenced to the incident beam intensity [16,30,31], were determined by averaging over a circular region with a radius corresponding to a quarter of the lattice constant of SrTiO 3 .…”

Section: Methodsmentioning

confidence: 99%

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Lattice relaxations around individual dopant atoms in SrTiO3

Salmani-Rezaie

Kim

Ahadi

et al. 2019

Phys. Rev. Materials

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The local atomic structure around individual dopant atoms can directly influence the electronic properties of a doped material. Here, we use quantitative scanning transmission electron microscopy to study the local lattice relaxations around Sm dopant atoms in SrTiO 3 thin films. These films have recently been shown to undergo successive ferroelectric and superconducting transitions when strained. We show that neighboring Ti-O columns move away from the columns that contain Sm dopants. The observed displacements are, however, more complex than a simple outward expansion of all four surrounding Ti-O columns. We discuss potential implications, especially for the ferroelectric transition observed in strained films.

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Section: Methodsmentioning

confidence: 87%

Section: Methodsmentioning

confidence: 99%

Lattice relaxations around individual dopant atoms in SrTiO3

Salmani-Rezaie

Kim

Ahadi

et al. 2019

Phys. Rev. Materials

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“…ABF-STEM is one of the imaging techniques commonly used for visualizing the position of light elements including oxygen 20,45–50 . However, because atomic columns are imaged in this STEM mode using a dark contrast with a bright background, the position uncertainty of light elements is sometimes not negligible when a specimen is comparatively thick and its tilting angle is high 51,52 . Therefore, to achieve a better signal-to-noise ratio, we used an imaging method, iDPC-STEM, where four-quadrant segmented STEM detectors are utilized for differential phase-contrast image acquisition 30,31 (see Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

Atomic-scale perturbation of oxygen octahedra via surface ion exchange in perovskite nickelates boosts water oxidation

2019

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A substantial amount of interest has been focused on AB O 3 -type perovskite oxides over the past decade as oxygen electrocatalysts. Despite many studies on various compositions, the correlation between the structure of the oxygen octahedra and electrocatalytic property has been overlooked, and there accordingly have been a very limited number of attempts regarding control of atomistic structure. Utilizing epitaxial Ln NiO 3 ( Ln = La, Pr, Nd) thin films, here we demonstrate that simple electrochemical exchange of Fe in the surface region with several-unit-cell thickness is notably effective to boost the catalytic activity for the oxygen evolution reaction by different orders of magnitude. Furthermore, we directly establish that strong distortion of oxygen octahedra at the angstrom scale is readily induced during the Fe exchange, and that this structural perturbation permits easier charge transfer. The findings suggest that structural alteration can be an efficient approach to achieve exceptional electrocatalysis in crystalline oxides.

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“…The electrons at high-angles were scattered nearly from the nuclei and the contrast in HAADF shows the Z 2 -dependence of unscreened Rutherford scattering and the HAADF STEM is called Z-contrast imaging. In this sense, the intensity of HAADF image may be simply described by the straightforward convolution of point spread function P(r p ) and objective function O(r p ): Figure 18b shows the HAADF STEM image of SrTiO 3 viewed along the [001] direction, and one can clearly recognize the locations of Sr and Ti-O atomic columns, as respective bright contrasts [166]. Owing to the Z-contrast nature, the heavier Sr atomic column is brighter than Ti-O atomic column, and therefore Z-contrast imaging can be considered as a chemical sensitive imaging.…”

Section: Imaging and Spectroscopy By Atomic-resolution Stemmentioning

confidence: 99%

Influence of Dislocations in Transition Metal Oxides on Selected Physical and Chemical Properties

et al. 2018

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Studies on dislocations in prototypic binary and ternary oxides (here TiO 2 and SrTiO 3 ) using modern TEM and scanning probe microscopy (SPM) techniques, combined with classical etch pits methods, are reviewed. Our review focuses on the important role of dislocations in the insulator-to-metal transition and for redox processes, which can be preferentially induced along dislocations using chemical and electrical gradients. It is surprising that, independently of the growth techniques, the density of dislocations in the surface layers of both prototypical oxides is high (10 9 /cm 2 for epipolished surfaces and up to 10 12 /cm 2 for the rough surface). The TEM and locally-conducting atomic force microscopy (LCAFM) measurements show that the dislocations create a network with the character of a hierarchical tree. The distribution of the dislocations in the plane of the surface is, in principle, inhomogeneous, namely a strong tendency for the bundling and creation of arrays or bands in the crystallographic <100> and <110> directions can be observed. The analysis of the core of dislocations using scanning transmission electron microscopy (STEM) techniques (such as EDX with atomic resolution, electron-energy loss spectroscopy (EELS)) shows unequivocally that the core of dislocations possesses a different crystallographic structure, electronic structure and chemical composition relative to the matrix. Because the Burgers vector of dislocations is per se invariant, the network of dislocations (with additional d 1 electrons) causes an electrical short-circuit of the matrix. This behavior is confirmed by LCAFM measurements for the stoichiometric crystals, moreover a similar dominant role of dislocations in channeling of the current after thermal reduction of the crystals or during resistive switching can be observed. In our opinion, the easy transformation of the chemical composition of the surface layers of both model oxides should be associated with the high concentration of extended defects in this region. Another important insight for the analysis of the physical properties in real oxide crystals (matrix + dislocations) comes from the studies of the nucleation of dislocations via in situ STEM indentation, namely that the dislocations can be simply nucleated under mechanical stimulus and can be easily moved at room temperature.

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Picometer-scale atom position analysis in annular bright-field STEM imaging

Cited by 53 publications

References 60 publications

Lattice relaxations around individual dopant atoms in SrTiO3

Lattice relaxations around individual dopant atoms in SrTiO3

Atomic-scale perturbation of oxygen octahedra via surface ion exchange in perovskite nickelates boosts water oxidation

Influence of Dislocations in Transition Metal Oxides on Selected Physical and Chemical Properties

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