The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d1Transition-Metal Ions

Victor Da Cruz Pinha Barbosa; Jie Xiong; Phuong Minh Tran; Michael A. McGuire; Jiaqiang Yan; Matthew T. Warren; Rolando Valdes Aguilar; Wenjuan Zhang; Mohit Randeria; Nandini Trivedi; Daniel Haskel; Patrick M. Woodward

doi:10.1021/acs.chemmater.1c03456

The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d¹Transition-Metal Ions

Victor Da Cruz Pinha Barbosa, Jie Xiong, Phuong Minh Tran, Michael A. McGuire, Jiaqiang Yan, Matthew T. Warren, Rolando Valdes Aguilar, Wenjuan Zhang, Mohit Randeria, Nandini Trivedi, Daniel Haskel, Patrick M. Woodward

Correlated Electron Materials

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Abstract

Five double perovskites, each containing a transition-metal ion with a 5d1 configuration, have been studied to better understand the surprising diversity of magnetic ground states seen in these isoelectronic compounds. Ba2ZnReO6 adopts the cubic double perovskite structure and magnetically orders below 16 K, with a canted ferromagnetic structure and a saturated magnetization of ∼0.24 μB/Re. X-ray magnetic circular dichroism indicates a substantial orbital moment of approximately 0.4 μB/Re that opposes the spin moment. The structures of Ba2NaOsO6 (canted ferromagnet, TC = 7 K) and Ba2LiOsO6 (antiferromagnet, TN = 8 K) are reinvestigated using time-of-flight neutron powder diffraction and found to crystallize with the cubic double perovskite structure. No evidence for a structural distortion can be found in either compound down to 10 K. Ba2CdReO6 is also cubic at room temperature but undergoes a structural transition upon cooling below ∼180 K to a tetragonal structure with I4/m symmetry that involves compression of the Re-O bonds that are parallel to the c-axis. Sr2LiOsO6 shows a similar tetragonal distortion at room temperature and maintains that structure down to 10 K. Surprisingly, the Os-centered octahedron in Sr2LiOsO6 is distorted in the opposite direction, exhibiting an elongation of the Os-O bonds along the c-axis. Differences in the distortions of the octahedra lead to different magnetic ground states, antiferromagnetic (TN = 4 K) for Ba2CdReO6 and spin glass (Tg = 30 K) for Sr2LiOsO6. Theoretical modeling shows that the varied magnetic behaviors of double perovskites containing 5d1 ions are closely tied to crystallographic distortions. These distortions remove the degeneracy of the 5d t2g orbitals, leading to changes in orbital occupation that ultimately determine which of the several competing magnetic ground states is favored.

Original language	English
Pages (from-to)	1098-1109
Number of pages	12
Journal	Chemistry of Materials
Volume	34
Issue number	3
DOIs	https://doi.org/10.1021/acs.chemmater.1c03456
State	Published - Feb 8 2022

Funding

The authors thank Adam Aczel for assistance with the neutron powder diffraction data on BaZnReO. A portion of this research used resources at the High Flux Isotope Reactor and the Spallation Neutron Source, both are DOE Office of Science User Facilities operated by the Oak Ridge National Laboratory. The authors also thank Graham King of the Canadian Light Source for collecting synchrotron data on SrLiOsO and providing advice for analyzing this data. This work was supported by NSF Materials Research Science and Engineering Center (MRSEC) grants nos. DMR-1420451 and DMR-2011876. Work at Argonne is supported by the US Department of Energy, Office of Science, Office of Basic Energy Sciences, under contract no. DE-AC-02-06CH11357. Work at Oak Ridge National Laboratory was supported by the US Department of Energy, Office of Science, Basic Energy Sciences, Materials Sciences and Engineering Division, under contract no. DE-AC05-00OR22725. 2 6 2 6

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Da Cruz Pinha Barbosa, V., Xiong, J., Tran, P. M., McGuire, M. A., Yan, J., Warren, M. T., Aguilar, R. V., Zhang, W., Randeria, M., Trivedi, N., Haskel, D., & Woodward, P. M. (2022). The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d¹Transition-Metal Ions. Chemistry of Materials, 34(3), 1098-1109. https://doi.org/10.1021/acs.chemmater.1c03456

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title = "The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d1Transition-Metal Ions",

abstract = "Five double perovskites, each containing a transition-metal ion with a 5d1 configuration, have been studied to better understand the surprising diversity of magnetic ground states seen in these isoelectronic compounds. Ba2ZnReO6 adopts the cubic double perovskite structure and magnetically orders below 16 K, with a canted ferromagnetic structure and a saturated magnetization of ∼0.24 μB/Re. X-ray magnetic circular dichroism indicates a substantial orbital moment of approximately 0.4 μB/Re that opposes the spin moment. The structures of Ba2NaOsO6 (canted ferromagnet, TC = 7 K) and Ba2LiOsO6 (antiferromagnet, TN = 8 K) are reinvestigated using time-of-flight neutron powder diffraction and found to crystallize with the cubic double perovskite structure. No evidence for a structural distortion can be found in either compound down to 10 K. Ba2CdReO6 is also cubic at room temperature but undergoes a structural transition upon cooling below ∼180 K to a tetragonal structure with I4/m symmetry that involves compression of the Re-O bonds that are parallel to the c-axis. Sr2LiOsO6 shows a similar tetragonal distortion at room temperature and maintains that structure down to 10 K. Surprisingly, the Os-centered octahedron in Sr2LiOsO6 is distorted in the opposite direction, exhibiting an elongation of the Os-O bonds along the c-axis. Differences in the distortions of the octahedra lead to different magnetic ground states, antiferromagnetic (TN = 4 K) for Ba2CdReO6 and spin glass (Tg = 30 K) for Sr2LiOsO6. Theoretical modeling shows that the varied magnetic behaviors of double perovskites containing 5d1 ions are closely tied to crystallographic distortions. These distortions remove the degeneracy of the 5d t2g orbitals, leading to changes in orbital occupation that ultimately determine which of the several competing magnetic ground states is favored.",

author = "{Da Cruz Pinha Barbosa}, Victor and Jie Xiong and Tran, {Phuong Minh} and McGuire, {Michael A.} and Jiaqiang Yan and Warren, {Matthew T.} and Aguilar, {Rolando Valdes} and Wenjuan Zhang and Mohit Randeria and Nandini Trivedi and Daniel Haskel and Woodward, {Patrick M.}",

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Da Cruz Pinha Barbosa, V, Xiong, J, Tran, PM, McGuire, MA , Yan, J, Warren, MT, Aguilar, RV, Zhang, W, Randeria, M, Trivedi, N, Haskel, D & Woodward, PM 2022, 'The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d¹Transition-Metal Ions', Chemistry of Materials, vol. 34, no. 3, pp. 1098-1109. https://doi.org/10.1021/acs.chemmater.1c03456

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T1 - The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d1Transition-Metal Ions

AU - Da Cruz Pinha Barbosa, Victor

AU - Xiong, Jie

AU - Tran, Phuong Minh

AU - McGuire, Michael A.

AU - Yan, Jiaqiang

AU - Warren, Matthew T.

AU - Aguilar, Rolando Valdes

AU - Zhang, Wenjuan

AU - Randeria, Mohit

AU - Trivedi, Nandini

AU - Haskel, Daniel

AU - Woodward, Patrick M.

PY - 2022/2/8

Y1 - 2022/2/8

N2 - Five double perovskites, each containing a transition-metal ion with a 5d1 configuration, have been studied to better understand the surprising diversity of magnetic ground states seen in these isoelectronic compounds. Ba2ZnReO6 adopts the cubic double perovskite structure and magnetically orders below 16 K, with a canted ferromagnetic structure and a saturated magnetization of ∼0.24 μB/Re. X-ray magnetic circular dichroism indicates a substantial orbital moment of approximately 0.4 μB/Re that opposes the spin moment. The structures of Ba2NaOsO6 (canted ferromagnet, TC = 7 K) and Ba2LiOsO6 (antiferromagnet, TN = 8 K) are reinvestigated using time-of-flight neutron powder diffraction and found to crystallize with the cubic double perovskite structure. No evidence for a structural distortion can be found in either compound down to 10 K. Ba2CdReO6 is also cubic at room temperature but undergoes a structural transition upon cooling below ∼180 K to a tetragonal structure with I4/m symmetry that involves compression of the Re-O bonds that are parallel to the c-axis. Sr2LiOsO6 shows a similar tetragonal distortion at room temperature and maintains that structure down to 10 K. Surprisingly, the Os-centered octahedron in Sr2LiOsO6 is distorted in the opposite direction, exhibiting an elongation of the Os-O bonds along the c-axis. Differences in the distortions of the octahedra lead to different magnetic ground states, antiferromagnetic (TN = 4 K) for Ba2CdReO6 and spin glass (Tg = 30 K) for Sr2LiOsO6. Theoretical modeling shows that the varied magnetic behaviors of double perovskites containing 5d1 ions are closely tied to crystallographic distortions. These distortions remove the degeneracy of the 5d t2g orbitals, leading to changes in orbital occupation that ultimately determine which of the several competing magnetic ground states is favored.

AB - Five double perovskites, each containing a transition-metal ion with a 5d1 configuration, have been studied to better understand the surprising diversity of magnetic ground states seen in these isoelectronic compounds. Ba2ZnReO6 adopts the cubic double perovskite structure and magnetically orders below 16 K, with a canted ferromagnetic structure and a saturated magnetization of ∼0.24 μB/Re. X-ray magnetic circular dichroism indicates a substantial orbital moment of approximately 0.4 μB/Re that opposes the spin moment. The structures of Ba2NaOsO6 (canted ferromagnet, TC = 7 K) and Ba2LiOsO6 (antiferromagnet, TN = 8 K) are reinvestigated using time-of-flight neutron powder diffraction and found to crystallize with the cubic double perovskite structure. No evidence for a structural distortion can be found in either compound down to 10 K. Ba2CdReO6 is also cubic at room temperature but undergoes a structural transition upon cooling below ∼180 K to a tetragonal structure with I4/m symmetry that involves compression of the Re-O bonds that are parallel to the c-axis. Sr2LiOsO6 shows a similar tetragonal distortion at room temperature and maintains that structure down to 10 K. Surprisingly, the Os-centered octahedron in Sr2LiOsO6 is distorted in the opposite direction, exhibiting an elongation of the Os-O bonds along the c-axis. Differences in the distortions of the octahedra lead to different magnetic ground states, antiferromagnetic (TN = 4 K) for Ba2CdReO6 and spin glass (Tg = 30 K) for Sr2LiOsO6. Theoretical modeling shows that the varied magnetic behaviors of double perovskites containing 5d1 ions are closely tied to crystallographic distortions. These distortions remove the degeneracy of the 5d t2g orbitals, leading to changes in orbital occupation that ultimately determine which of the several competing magnetic ground states is favored.

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The Impact of Structural Distortions on the Magnetism of Double Perovskites Containing 5d¹Transition-Metal Ions

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