Crystallographic and magnetic structure of the Sr₂MnReO₆ double perovskite

G. Popov,^a M.V. Lobanov,^a E.V. Tsiper,^a,b M. Greenblatt,^a E.N. Caspi,^c A. Borissov,^d V. Kiryukhin^d and J.W. Lynn^e

^aDepartment of Chemistry and Chemical Biology, Rutgers University, Piscataway, NJ 08854
^bSchool of Computational Sciences, George Mason University, Fairfax, VA 22030
^cMaterials Science Division, Argonne National Lab, Argonne, IL 60439
^dDepartment of Physics and Astronomy, Rutgers University, Piscataway, NJ 08854
^eNIST Center for Neutron Research, Gaithesburg, MD 20899

Cavichini, A.S., Orlando, M.T.D., Fantini, M.C.A., Tartaglia, R., Galdino, C.W., Damay, F., Porcher, F. and Granado, E.,

Enhanced magnetism and suppressed magnetoelastic coupling induced by electron doping in Ca_1-xY_xMnReO₆.
Journal of Physics: Condensed Matter, 34(24), p.245803, 2022.

Zhang, Y. and Xu, X.,

Machine learning lattice parameters of monoclinic double perovskites.
International Journal of Quantum Chemistry, 121(5), p.e26480, 2021.

Frank, C.E., McCabe, E.E., Orlandi, F., Manuel, P., Tan, X., Deng, Z., Croft, M., Cascos, V., Emge, T., Feng, H.L. and Lapidus, S.,

Mn₂CoReO₆: a robust multisublattice antiferromagnetic perovskite with small A-site cations.
Chemical Communications, 55(23), pp.3331-3334, 2019.

Hossain, A., Bandyopadhyay, P. and Roy, S.,

An overview of double perovskites A₂B′B″O₆ with small ions at A site: Synthesis, structure and magnetic properties.
Journal of Alloys and Compounds, 740, pp.414-427, 2018.

Cavichini, A.S., Orlando, M.T., Depianti, J.B., Passamai Jr, J.L., Damay, F., Porcher, F. and Granado, E.,

Exotic magnetism and spin-orbit-assisted Mott insulating state in a 3d-5d double perovskite.
Physical Review B, 97(5), p.054431, 2018.

Cavichini, A.S.A.,

Determination of the magnetic network of perovskite double Ca₂MnReO₆ through neutron diffraction.
Doctoral dissertation, Universidade Federal do Espírito Santo, Brazil, 2018.

Wang, J.F., Zhang, Y.M., Jie, C. and Xu, M.,

Facile synthesis, structures, chemical states and physical properties of the Sr₂Mn_(1+x)W_(1-x)O₆ (0 ≤ x ≤ 3/5) ceramics.
Journal of Physics D: Applied Physics, 50(30), p.305001, 2017.

Li, M.R., Hodges, J.P., Retuerto, M., Deng, Z., Stephens, P.W., Croft, M.C., Deng, X., Kotliar, G., Sánchez-Benítez, J., Walker, D. and Greenblatt, M.,

Mn₂MnReO₆: synthesis and magnetic structure determination of a new transition-metal-only double perovskite canted antiferromagnet.
Chemistry of Materials, 28(9), pp.3148-3158, 2016.

Arevalo-Lopez, A.M., Stegemann, F. and Attfield, J.P.,

Competing antiferromagnetic orders in the double perovskite Mn₂MnReO₆ (Mn₃ReO₆).
Chemical Communications, 52(32), pp.5558-5560, 2016.

Orlando, M.T.D., Cavichini, A.S., Depianti, J.B., Passamai, J.L., Rocha, J.R., Salvador, J.F. and Orlando, C.G.P.,

Effects of yttrium doping in ordered double perovskite Sr₂CrReO₆.
Journal of Alloys and Compounds, 687, pp.463-469, 2016.

Vasala, S. and Karppinen, M.,

A₂B′B″O₆ perovskites: a review.
Progress in solid state chemistry, 43(1-2), pp.1-36, 2015.

Thompson, C.M., Chi, L., Hayes, J.R., Hallas, A.M., Wilson, M.N., Munsie, T.J., Swainson, I.P., Grosvenor, A.P., Luke, G.M. and Greedan, J.E.,

Synthesis, structure, and magnetic properties of novel B-site ordered double perovskites, SrLaMReO₆ (M= Mg, Mn, Co and Ni).
Dalton Transactions, 44(23), pp.10806-10816, 2015.

Chen, X., Parker, D., Ong, K.P., Du, M.H. and Singh, D.J.,

High magnetocrystalline anisotropy in oxides with near cubic local environments.
Applied Physics Letters, 102(10), p.102403, 2013.

Depianti, J.B., Orlando, M.T.D., Cavichini, A.S., Corrêa, H.P.S., Rodrigues, V.A., Passamai, J.L., Piedade, E.L., Belich, H., Medeiros, E.F. and De Melo, F.C.L.,

Structural and magnetic investigation of Ca₂MnReO₆ doped with Ce.
Cerâmica, 59, pp.262-268, 2013.

Depianti J.B.,

Magnéticas, estudo de propriedades
Thesis, 2013.

Mishra, R.,

First Principles Study of Double Perovskites and Group III-V Compounds.
Doctorate Thesis, The Ohio State University, 2012.

Mishra, R., Soliz, J.R., Woodward, P.M. and Windl, W.,

Ca₂MnRuO₆: Magnetic order arising from chemical chaos.
Chemistry of Materials, 24(14), pp.2757-2763, 2012.

Maiti, R.P., Dutta, S., Mukherjee, M., Mitra, M.K. and Chakravorty, D.,

Magnetic and dielectric properties of sol-gel derived nanoparticles of double perovskite Y₂NiMnO₆.
Journal of Applied Physics, 112(4), p.044311, 2012.

Majid, A., Khan, A. and Choi, T.S.,

Predicting lattice constant of complex cubic perovskites using computational intelligence.
Computational Materials Science, 50(6), pp.1879-1888, 2011.

Passamai Jr., J.L., Pinheiro, C.J., Orlando, M.T., Correa, H.P., Rossi, J.L., Mazzocchi, V.L., Parente, C.B., de Melo, F.C., Martinez, L.G. and Passos, C.A.,

Hydrostatic pressure cells development for x-ray and neutrons experiments.
2011 International Nuclear Atlantic Conference - INAC 2011, Brazil. ISBN: 978-85-99141-04-5, 2011.

Mikhailova, D., Narayanan, N., Voss, A., Ehrenberg, H., Trots, D.M., Ritter, C., Eckert, J. and Fuess, H.,

Solid Solution Sr₂Sc_1+xRe_1-xO₆ with a Perovskite‐Like Structure: Phase Transitions and Magnetic Properties.
European Journal of Inorganic Chemistry, 2010, 8 pp.1196-1206, 2010.

Corrêa, H.P., Cavalcante, I.P., Souza, D.O., Santos, E.Z., Orlando, M.D., Belich, H., Silva, F.J., Medeiro, E.F., Pires, J.M., Passamai, J.L. and Martinez, L.G.,

Synthesis and structural characterization of the Ca₂MnReO₆ double perovskite.
Cerâmica, 56, pp.193-200, 2010.

Corrêa H.P.S., Cavalcante I.P., Souza D.O., Santos E.Z., Orlando M.T.D., Belich H., Silva F.J., Medeiro, E.F., Pires, J.M., Passamai, J.L., Martinez, L.G. and Rossi, J.L.,

Synthesis and structural characterization of the Ca₂MnReO₆ double perovskite
Ceramica 56, pp.193-200, 2010.

Nishimura, K., Azuma, M., Hirai, S., Takano, M. and Shimakawa, Y.,

Synthesis and Physical Properties of Double Perovskite Pb₂FeReO₆.
Inorganic chemistry, 48(13), pp.5962-5966, 2009.

De Souza, D.O.,

Caracterização estrutural, morfológica e magnética da dupla perovsquita Ca₂MnReO₆.
Doctoral dissertation, Universidade Federal do Espírito Santo, 2009.

Fisher, B., Genossar, J., Chashka, K.B., Knizhnik, A., Patlagan, L. and Reisner, G.M.,

Variable range hopping in A₂MnReO₆ (A= Ca, Sr, Ba).
Journal of Applied Physics, 104(3), p.033716, 2008.

Mandal, T.K., Felser, C., Greenblatt, M. and Kübler, J.,

Magnetic and electronic properties of double perovskites and estimation of their curie temperatures by ab initio calculations.
Physical Review B, 78(13), p.134431, 2008.

Kuzmanovski, I., Dimitrovska-Lazova, S. and Aleksovska, S.,

Classification of perovskites with supervised self-organizing maps.
Analytica chimica acta, 595(1-2), pp.182-189, 2007.

Jung, A., Bonn, I., Ksenofontov, V., Panthöfer, M., Reiman, S., Felser, C. and Tremel, W.,

Effect of cation disorder on the magnetic properties of Sr₂Fe_1-xGa_xReO₆ (0 < x < 0.7) double perovskites.
Physical Review B, 75(18), p.184409, 2007.

Müller‐Buschbaum, H.,

Zur Kristallchemie der Oxorhenate.
Zeitschrift für anorganische und allgemeine Chemie, 633(15), pp.2491-2522, 2007.

Jung, A.,

Tuning the structural and magnetic properties of Sr₂FeReO₆ by substituting Fe and Re with valence invariant metals
Doctoral dissertation, Universitat Mainz, 2006.

Martin, L.O.S., Chapman, J.P., Lezama, L., Sánchez Marcos, J., Rodríguez‐Fernández, J., Arriortua, M.I. and Rojo, T.,

Magnetic properties of the ordered double perovskite Sr₂MnTeO₆.
European Journal of Inorganic Chemistry, 2006, 7, pp.1362-1370, 2006.

Serrate, D., De Teresa, J.M. and Ibarra, M.R.,

Double perovskites with ferromagnetism above room temperature.
Journal of Physics: Condensed Matter, 19(2), p.023201, 2006.

De Teresa, J.M., Serrate, D., Ritter, C., Blasco, J., Ibarra, M.R., Morellon, L. and Tokarz, W.,

Investigation of the high Curie temperature in Sr₂CrReO₆.
Physical Review B, 71(9), p.092408, 2005.

Dimitrovska, S., Aleksovska, S. and Kuzmanovski, I.,

Prediction of the unit cell edge length of cubic A₂²⁺BB'O₆ perovskites by multiple linear regression and artificial neural networks.
Central European Journal of Chemistry, 3(1), pp.198-215, 2005.

Hernández, T., Plazaola, F., Barandiaran, J.M. and Greneche, J.M.,

Cationic Order in Double Perovskite Oxide, Sr₂Fe_1-xSc_xReO₆ (x= 0.05, 0.1).
Hyperfine interactions, 161(1), pp.113-122, 2005.