Magnetic relaxations in four-coordinate Dy(III) complexes: Effects of anionic surroundings and short Dy-O bonds

Ke Xin Yu; You Song Ding; Tian Han; Ji Dong Leng; Yan Zhen Zheng

doi:10.1039/c6qi00117c

Magnetic relaxations in four-coordinate Dy(III) complexes: Effects of anionic surroundings and short Dy-O bonds

Ke Xin Yu, You Song Ding, Tian Han, Ji Dong Leng, Yan Zhen Zheng^*

^*Corresponding author for this work

The University of Manchester

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

Abstract

Two four-coordinate Dy(iii) complexes, [LiTHF₄][Dy(NPh₂)₄] (1) and DyLi(Ph₃CO)₃(NPh₂)THF (2), with similar distorted tetrahedral geometries and a pure anionic coordination environment were synthesized under anaerobic conditions. Magnetic studies reveal that only 2 having a short Dy-O bond (2.07 Å) shows slow magnetic relaxation behaviour under zero dc field. Quantitative analyses of energy-levels and eigenstates using the program PHI reveal that the ground state doublets for both the complexes are mixed with low-lying states, though complex 2 shows much higher purity of ground state doublets. This study presumably indicates that the spherically coordinated anions with evenly distributed charges are adverse to the enhancement of the axial magnetic anisotropy of the Dy(iii) ions, while the strong Dy-O bond may break such a high symmetry and hence promote the axial magnetic anisotropy of the Dy(iii) ions.

Original language	English
Pages (from-to)	1028-1034
Number of pages	7
Journal	Inorganic Chemistry Frontiers
Volume	3
Issue number	8
Early online date	3 Jun 2016
DOIs	https://doi.org/10.1039/c6qi00117c
Publication status	Published - 1 Aug 2016

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title = "Magnetic relaxations in four-coordinate Dy(III) complexes: Effects of anionic surroundings and short Dy-O bonds",

abstract = "Two four-coordinate Dy(iii) complexes, [LiTHF4][Dy(NPh2)4] (1) and DyLi(Ph3CO)3(NPh2)THF (2), with similar distorted tetrahedral geometries and a pure anionic coordination environment were synthesized under anaerobic conditions. Magnetic studies reveal that only 2 having a short Dy-O bond (2.07 {\AA}) shows slow magnetic relaxation behaviour under zero dc field. Quantitative analyses of energy-levels and eigenstates using the program PHI reveal that the ground state doublets for both the complexes are mixed with low-lying states, though complex 2 shows much higher purity of ground state doublets. This study presumably indicates that the spherically coordinated anions with evenly distributed charges are adverse to the enhancement of the axial magnetic anisotropy of the Dy(iii) ions, while the strong Dy-O bond may break such a high symmetry and hence promote the axial magnetic anisotropy of the Dy(iii) ions.",

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T1 - Magnetic relaxations in four-coordinate Dy(III) complexes

T2 - Effects of anionic surroundings and short Dy-O bonds

AU - Yu, Ke Xin

AU - Ding, You Song

AU - Han, Tian

AU - Leng, Ji Dong

AU - Zheng, Yan Zhen

PY - 2016/8/1

Y1 - 2016/8/1

N2 - Two four-coordinate Dy(iii) complexes, [LiTHF4][Dy(NPh2)4] (1) and DyLi(Ph3CO)3(NPh2)THF (2), with similar distorted tetrahedral geometries and a pure anionic coordination environment were synthesized under anaerobic conditions. Magnetic studies reveal that only 2 having a short Dy-O bond (2.07 Å) shows slow magnetic relaxation behaviour under zero dc field. Quantitative analyses of energy-levels and eigenstates using the program PHI reveal that the ground state doublets for both the complexes are mixed with low-lying states, though complex 2 shows much higher purity of ground state doublets. This study presumably indicates that the spherically coordinated anions with evenly distributed charges are adverse to the enhancement of the axial magnetic anisotropy of the Dy(iii) ions, while the strong Dy-O bond may break such a high symmetry and hence promote the axial magnetic anisotropy of the Dy(iii) ions.

AB - Two four-coordinate Dy(iii) complexes, [LiTHF4][Dy(NPh2)4] (1) and DyLi(Ph3CO)3(NPh2)THF (2), with similar distorted tetrahedral geometries and a pure anionic coordination environment were synthesized under anaerobic conditions. Magnetic studies reveal that only 2 having a short Dy-O bond (2.07 Å) shows slow magnetic relaxation behaviour under zero dc field. Quantitative analyses of energy-levels and eigenstates using the program PHI reveal that the ground state doublets for both the complexes are mixed with low-lying states, though complex 2 shows much higher purity of ground state doublets. This study presumably indicates that the spherically coordinated anions with evenly distributed charges are adverse to the enhancement of the axial magnetic anisotropy of the Dy(iii) ions, while the strong Dy-O bond may break such a high symmetry and hence promote the axial magnetic anisotropy of the Dy(iii) ions.

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Magnetic relaxations in four-coordinate Dy(III) complexes: Effects of anionic surroundings and short Dy-O bonds

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