Oxygen Hole Character and Lateral Homogeneity in PrNiO2+δ Thin Films

K. Fürsich; R. Pons; M. Bluschke; R. A. Ortiz; S. Wintz; E. Schierle; M. Weigand; G. Logvenov; G. Schütz; B. Keimer; E. Benckiser

doi:10.3389/fphy.2021.810220

Oxygen Hole Character and Lateral Homogeneity in PrNiO_2+δ Thin Films

K. Fürsich, R. Pons, M. Bluschke, R. A. Ortiz, S. Wintz, E. Schierle, M. Weigand, G. Logvenov, G. Schütz, B. Keimer, E. Benckiser

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Using x-ray absorption spectroscopy with lateral resolution from the submillimeter to submicrometer range, we investigate the homogeneity, the chemical composition, and the nickel 3d- oxygen 2p charge transfer in topotactically reduced epitaxial PrNiO_2+δ thin films. To this end, we use x-ray absorption spectroscopy in a standard experimental setup and in a soft x-ray microscope to probe the element and spatially resolved electronic structure modifications through changes of the nickel-2p and oxygen-1s absorption spectrum upon soft-chemistry reduction. We find that the reduction process is laterally homogeneous across a partially reduced PrNiO_2+δ thin film sample for length scales down to 50 nm.

Original language	English
Article number	810220
Journal	Frontiers in Physics
Volume	9
DOIs	https://doi.org/10.3389/fphy.2021.810220
State	Published - 10 Jan 2022
Externally published	Yes

Keywords

infinite-layer nickelates
rare-earth nickelates films
topotactical soft chemistry reduction
x-ray absorption spectroscopy
x-ray microscopy

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10.3389/fphy.2021.810220

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title = "Oxygen Hole Character and Lateral Homogeneity in PrNiO2+δ Thin Films",

abstract = "Using x-ray absorption spectroscopy with lateral resolution from the submillimeter to submicrometer range, we investigate the homogeneity, the chemical composition, and the nickel 3d- oxygen 2p charge transfer in topotactically reduced epitaxial PrNiO2+δ thin films. To this end, we use x-ray absorption spectroscopy in a standard experimental setup and in a soft x-ray microscope to probe the element and spatially resolved electronic structure modifications through changes of the nickel-2p and oxygen-1s absorption spectrum upon soft-chemistry reduction. We find that the reduction process is laterally homogeneous across a partially reduced PrNiO2+δ thin film sample for length scales down to 50 nm.",

keywords = "infinite-layer nickelates, rare-earth nickelates films, topotactical soft chemistry reduction, x-ray absorption spectroscopy, x-ray microscopy",

author = "K. F{\"u}rsich and R. Pons and M. Bluschke and Ortiz, {R. A.} and S. Wintz and E. Schierle and M. Weigand and G. Logvenov and G. Sch{\"u}tz and B. Keimer and E. Benckiser",

note = "Publisher Copyright: Copyright {\textcopyright} 2022 F{\"u}rsich, Pons, Bluschke, Ortiz, Wintz, Schierle, Weigand, Logvenov, Sch{\"u}tz, Keimer and Benckiser.",

year = "2022",

month = jan,

day = "10",

doi = "10.3389/fphy.2021.810220",

language = "English",

volume = "9",

journal = "Frontiers in Physics",

issn = "2296-424X",

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TY - JOUR

T1 - Oxygen Hole Character and Lateral Homogeneity in PrNiO2+δ Thin Films

AU - Fürsich, K.

AU - Pons, R.

AU - Bluschke, M.

AU - Ortiz, R. A.

AU - Wintz, S.

AU - Schierle, E.

AU - Weigand, M.

AU - Logvenov, G.

AU - Schütz, G.

AU - Keimer, B.

AU - Benckiser, E.

PY - 2022/1/10

Y1 - 2022/1/10

N2 - Using x-ray absorption spectroscopy with lateral resolution from the submillimeter to submicrometer range, we investigate the homogeneity, the chemical composition, and the nickel 3d- oxygen 2p charge transfer in topotactically reduced epitaxial PrNiO2+δ thin films. To this end, we use x-ray absorption spectroscopy in a standard experimental setup and in a soft x-ray microscope to probe the element and spatially resolved electronic structure modifications through changes of the nickel-2p and oxygen-1s absorption spectrum upon soft-chemistry reduction. We find that the reduction process is laterally homogeneous across a partially reduced PrNiO2+δ thin film sample for length scales down to 50 nm.

AB - Using x-ray absorption spectroscopy with lateral resolution from the submillimeter to submicrometer range, we investigate the homogeneity, the chemical composition, and the nickel 3d- oxygen 2p charge transfer in topotactically reduced epitaxial PrNiO2+δ thin films. To this end, we use x-ray absorption spectroscopy in a standard experimental setup and in a soft x-ray microscope to probe the element and spatially resolved electronic structure modifications through changes of the nickel-2p and oxygen-1s absorption spectrum upon soft-chemistry reduction. We find that the reduction process is laterally homogeneous across a partially reduced PrNiO2+δ thin film sample for length scales down to 50 nm.

KW - infinite-layer nickelates

KW - rare-earth nickelates films

KW - topotactical soft chemistry reduction

KW - x-ray absorption spectroscopy

KW - x-ray microscopy

UR - http://www.scopus.com/inward/record.url?scp=85123401379&partnerID=8YFLogxK

U2 - 10.3389/fphy.2021.810220

DO - 10.3389/fphy.2021.810220

M3 - Article

AN - SCOPUS:85123401379

SN - 2296-424X

VL - 9

JO - Frontiers in Physics

JF - Frontiers in Physics

M1 - 810220

ER -

Oxygen Hole Character and Lateral Homogeneity in PrNiO_2+δ Thin Films

Abstract

Keywords

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