Role of Antisite Disorder, Rare-Earth Size, and Superexchange Angle on Band Gap, Curie Temperature, and Magnetization of R2NiMnO6 Double Perovskites

Homogeneous solid solutions of sol–gel-prepared R2NiMnO6 (R = La, Pr, Nd, Sm, Gd, Tb, Dy, Y, and Ho) double perovskites crystallize in a B-site-ordered monoclinic structure (P21/n space group). Monoclinic distortion enhances with decreasing R3+ ionic radii (r R 3+). The magnetic ordering temperature...

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Published in:ACS applied electronic materials 2019-01, Vol.1 (1), p.141-153
Main Authors: Nasir, Mohd, Kumar, Sunil, Patra, Nirmalendu, Bhattacharya, Dibyendu, Jha, Shambhu Nath, Basaula, Dharma R, Bhatt, Subhash, Khan, Mahmud, Liu, Shun-Wei, Biring, Sajal, Sen, Somaditya
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Language:eng ; jpn
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Summary:Homogeneous solid solutions of sol–gel-prepared R2NiMnO6 (R = La, Pr, Nd, Sm, Gd, Tb, Dy, Y, and Ho) double perovskites crystallize in a B-site-ordered monoclinic structure (P21/n space group). Monoclinic distortion enhances with decreasing R3+ ionic radii (r R 3+). The magnetic ordering temperature (T C) decreases from 270 K for La2NiMnO6 to 80 K for Ho2NiMnO6 as r R 3+ decreases from 1.16 Å (La3+) to 1.02 Å (Ho3+). An additional magnetic anomaly is observed in Nd2NiMnO6, Sm2NiMnO6, Tb2NiMnO6, and Dy2NiMnO6 at lower temperatures, which originates from the 3d–4f coupling between Mn–Ni and Nd3+/Sm3+/Tb3+/Dy3+ magnetic moments. Further, high saturation magnetization is achieved for all samples, indicating that they are atomically ordered and have less antisite disorders. Upon a decrease in the size of R3+, the local structure shows an expansion of NiO6 octahedra and almost unchanged of MnO6 octahedra. X-ray-absorption near-edge spectroscopy reveals a majority of Ni2+ and Mn4+ ions in all samples. Softening of phonon modes results in the elongation of the Ni/Mn–O bond length. Finally, a correlation among lattice parameters, structural distortion, octahedral tilting, superexchange angle, electronic band gap, Curie temperature, and the rare-earth ionic radius is established.
ISSN:2637-6113
2637-6113
DOI:10.1021/acsaelm.8b00062