Crystal growth, electronic structure, and properties of Ni-substituted FeGa3. Likhanov, M. S., Verchenko, V. Y., Bykov, M. A., Tsirlin, A. A., Gippius, A. A., David, B., Antoine, M., & Shevelkov, A. V. Journal of Solid State Chemistry, 236:166–172, 2016.
doi  abstract   bibtex   
Crystals of the Fe1−xNixGa3 limited solid solution (x\textless0.045) have been grown from gallium flux. We have explored the electronic structure as well as magnetic and thermoelectric properties of Fe0.975Ni0.025Ga3 in comparison with Fe0.95Co0.05Ga3, following the rigid band approach and assuming that one Ni atom donates twice the number of electrons as one Co atom. However, important differences between the Co- and Ni-doped compounds are found below 620 K, which is the temperature of the metal-to-insulator transition for both compounds. We have found that Fe0.975Ni0.025Ga3 displays lower degree of spatial inhomogeneity on the local level and exhibits diamagnetic behavior with a broad shallow minimum in the magnetic susceptibility near 35 K, in sharp contrast with the Curie–Weiss paramagnetism of Fe0.95Co0.05Ga3. Transport measurements have shown the maximum of the thermoelectric figure-of-merit ZT of 0.09 and 0.14 at 620 K for Fe0.975Ni0.025Ga3 and Fe0.95Co0.05Ga3, respectively.
@article{likhanov_crystal_2016,
	title = {Crystal growth, electronic structure, and properties of {Ni}-substituted {FeGa}3},
	volume = {236},
	issn = {0022-4596; 1095-726X},
	doi = {10.1016/j.jssc.2015.08.028},
	abstract = {Crystals of the Fe1−xNixGa3 limited solid solution (x{\textless}0.045) have been grown from gallium flux. We have explored the electronic structure as well as magnetic and thermoelectric properties of Fe0.975Ni0.025Ga3 in comparison with Fe0.95Co0.05Ga3, following the rigid band approach and assuming that one Ni atom donates twice the number of electrons as one Co atom. However, important differences between the Co- and Ni-doped compounds are found below 620 K, which is the temperature of the metal-to-insulator transition for both compounds. We have found that Fe0.975Ni0.025Ga3 displays lower degree of spatial inhomogeneity on the local level and exhibits diamagnetic behavior with a broad shallow minimum in the magnetic susceptibility near 35 K, in sharp contrast with the Curie–Weiss paramagnetism of Fe0.95Co0.05Ga3. Transport measurements have shown the maximum of the thermoelectric figure-of-merit ZT of 0.09 and 0.14 at 620 K for Fe0.975Ni0.025Ga3 and Fe0.95Co0.05Ga3, respectively.},
	language = {english},
	journal = {Journal of Solid State Chemistry},
	author = {Likhanov, Maxim S. and Verchenko, Valeriy Yu and Bykov, Mikhail A. and Tsirlin, Alexander A. and Gippius, Andrei A. and David, Berthebaud and Antoine, Maignan and Shevelkov, Andrei V.},
	year = {2016},
	pages = {166--172}
}

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