Comparison of the Mn and Ni doped Eu8Ga16Ge30 type-I clathrates

•The type-I clathrates Eu8Ga15M1Ge30 (M = Mn, Ni) were prepared.•The incorporation of Mn or Ni both lead to about 2.5 K decrease of Tc.•The improvement of magnetic entropy change is observed due to Mn/Ni doping.•Mn-doping can result in a higher magnetic entropy change than Ni-doping.•The lager satur...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2019-12, Vol.491, p.165433, Article 165433
Main Authors: Liu, Lihua, Liu, Peizhu, Chen, Ning, Li, Yang
Format: Article
Language:English
Subjects:
Clathrate
Clathrates
Doping
Entropy
Ferromagnetism
Lager
Lattice parameters
Magnetic moments
Magnetocaloric effect
Manganese
Nickel
Saturation
Second order transition
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Summary:•The type-I clathrates Eu8Ga15M1Ge30 (M = Mn, Ni) were prepared.•The incorporation of Mn or Ni both lead to about 2.5 K decrease of Tc.•The improvement of magnetic entropy change is observed due to Mn/Ni doping.•Mn-doping can result in a higher magnetic entropy change than Ni-doping.•The lager saturation magnetic moment is the reason for the higher -ΔSMmax of Mn-doping. The Mn and Ni-doped type-I clathrates with nominal compositions of Eu8Ga15M1Ge30 (M = Mn, Ni) were prepared by the ARC technique. The incorporation of 3d metals into the cage frame leads to the decrease in lattice parameters. The compounds undergo a paramagnetic to ferromagnetic transition at 32.3 K for Eu8Ga15Mn1Ge30 and 32.5 K for Eu8Ga15Ni1Ge30, which are both about 2.5 K lower than that of the Mn/Ni-free Eu8Ga16Ge30. These transitions were identified to be second-order through the slope of the Arrott plot curves according to the Banerjee’s criteria. In addition, the improvement of magnetic entropy change is observed due to doping. The maximum value of the magnetic entropy change -ΔSMmax of Eu8Ga15Mn1Ge30 is 6.64 J/kg K around TC for a field change of 3 T. This magnetic entropy change is 14.5% higher than that of Mn/Ni-free Eu8Ga16Ge30. Mn-doping can result in a higher magnetic entropy change than Ni-doping. The -ΔSMmax of Eu8Ga15Ni1Ge30 is only 6.13 J/kg K around TC for a field change of 3 T, in spite of the similar TC as Eu8Ga15Mn1Ge30. The estimated saturation magnetic moments per Eu2+ ion are 6.79 and 6.47 μΒ for Eu8Ga15Mn1Ge30 and Eu8Ga15Ni1Ge30, respectively. The lager saturation magnetic moment is the major reason for the higher -ΔSMmax value of Eu8Ga15Mn1Ge30.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2019.165433