High-pressure neutron scattering of the magnetoelastic Ni-Cr Prussian blue analog

D. M. Pajerowski; S. E. Conklin; J. Leão; L. W. Harriger; D. Phelan

doi:10.1103/PhysRevB.91.094104

High-pressure neutron scattering of the magnetoelastic Ni-Cr Prussian blue analog

D. M. Pajerowski
, S. E. Conklin
, J. Leão
, L. W. Harriger
, D. Phelan

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

11 Scopus citations

Abstract

This paper summarizes 0 to 0.6 GPa neutron diffraction measurements of a nickel hexacyanochromate coordination polymer (NiCrPB) that has the face-centered-cubic, Prussian blue structure. Deuterated powders of NiCrPB contain ≈100-nm-sided cubic particles. The application of a large magnetic field shows the ambient-pressure, saturated magnetic structure. Pressures of less than 1 GPa have previously been shown to decrease the magnetic susceptibility by as much as half, and we find modifications to the nuclear crystal structure at these pressures that we quantify. Bridging cyanide molecules isomerize their coordination direction under pressure to change the local ligand field and introduce inhomogeneities in the local (magnetic) anisotropy that act as pinning sites for magnetic domains, thereby reducing the low-field magnetic susceptibility.

Original language	English
Article number	094104
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	91
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevB.91.094104
State	Published - Mar 3 2015
Externally published	Yes

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10.1103/PhysRevB.91.094104

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title = "High-pressure neutron scattering of the magnetoelastic Ni-Cr Prussian blue analog",

abstract = "This paper summarizes 0 to 0.6 GPa neutron diffraction measurements of a nickel hexacyanochromate coordination polymer (NiCrPB) that has the face-centered-cubic, Prussian blue structure. Deuterated powders of NiCrPB contain ≈100-nm-sided cubic particles. The application of a large magnetic field shows the ambient-pressure, saturated magnetic structure. Pressures of less than 1 GPa have previously been shown to decrease the magnetic susceptibility by as much as half, and we find modifications to the nuclear crystal structure at these pressures that we quantify. Bridging cyanide molecules isomerize their coordination direction under pressure to change the local ligand field and introduce inhomogeneities in the local (magnetic) anisotropy that act as pinning sites for magnetic domains, thereby reducing the low-field magnetic susceptibility.",

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doi = "10.1103/PhysRevB.91.094104",

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AU - Pajerowski, D. M.

AU - Conklin, S. E.

AU - Leão, J.

AU - Harriger, L. W.

AU - Phelan, D.

PY - 2015/3/3

Y1 - 2015/3/3

N2 - This paper summarizes 0 to 0.6 GPa neutron diffraction measurements of a nickel hexacyanochromate coordination polymer (NiCrPB) that has the face-centered-cubic, Prussian blue structure. Deuterated powders of NiCrPB contain ≈100-nm-sided cubic particles. The application of a large magnetic field shows the ambient-pressure, saturated magnetic structure. Pressures of less than 1 GPa have previously been shown to decrease the magnetic susceptibility by as much as half, and we find modifications to the nuclear crystal structure at these pressures that we quantify. Bridging cyanide molecules isomerize their coordination direction under pressure to change the local ligand field and introduce inhomogeneities in the local (magnetic) anisotropy that act as pinning sites for magnetic domains, thereby reducing the low-field magnetic susceptibility.

AB - This paper summarizes 0 to 0.6 GPa neutron diffraction measurements of a nickel hexacyanochromate coordination polymer (NiCrPB) that has the face-centered-cubic, Prussian blue structure. Deuterated powders of NiCrPB contain ≈100-nm-sided cubic particles. The application of a large magnetic field shows the ambient-pressure, saturated magnetic structure. Pressures of less than 1 GPa have previously been shown to decrease the magnetic susceptibility by as much as half, and we find modifications to the nuclear crystal structure at these pressures that we quantify. Bridging cyanide molecules isomerize their coordination direction under pressure to change the local ligand field and introduce inhomogeneities in the local (magnetic) anisotropy that act as pinning sites for magnetic domains, thereby reducing the low-field magnetic susceptibility.

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DO - 10.1103/PhysRevB.91.094104

M3 - Article

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SN - 1098-0121

VL - 91

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 9

M1 - 094104

ER -

High-pressure neutron scattering of the magnetoelastic Ni-Cr Prussian blue analog

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