Some aspects of antiferromagnetic ordering in LiMnP 0.85V 0.15O 4: Neutron diffraction and DC-magnetization studies / Kellerman D.G., Chukalkin Y.G., Mukhina N.A., Gorshkov V.S., Semenova A.S., Teplykh A.E. // Journal of Magnetism and Magnetic Materials. - 2012. - V. 324, l. 19. - P. 3181-3188.

ISSN:

03048853

Type:

Article

Abstract:

V-substituted LiMnPO 4 has been synthesized by the solid state reaction route. Combined Rietveld refinement of neutron and X-ray data revealed that all vanadium ions are located in the same positions as the phosphorus ions. The magnetic structure of LiMnP 0.85V 0.15O 4 was found to be the same as that described for undoped antiferromagnetic LiMnPO 4 (T N=34.5 K). DC-magnetization measurements were carried out to study the peculiarities of magnetic ordering in LiMnP 0.85V 0.15O 4. An irreversible behavior of DC magnetization was found at magnetic fields less than ∼2 kOe. It was demonstrated that an increase in the magnitude of the applied field leads to a reduction of the discrepancy between zero-field-cooled and field-cooled processes. These effects were explained by the movement of domain walls and by transition of the system to a monodomain state. The anomaly in the magnetization vs field dependence attributed presumably to the spin-flop transition was observed at ∼40 kOe. The existence of magnetic inhomogeneity in the paramagnetic phase of LiMnP 0.85V 0.15O 4 was proved by the analysis of the χT product. It was concluded that the observed changes in χT are indicative of a competition between ferromagnetic and antiferromagnetic correlations at temperatures slightly exceeding T N. © 2012 Elsevier B.V. All rights reserved.

Author keywords:

Domain structure; LiMnPO 4; Magnetic heterogeneity; Magnetic susceptibility; Neutron diffraction

Index keywords:

Antiferromagnetic orderings; Antiferromagnetics; Applied field; DC magnetization; Domain structure; Ferromagnetic and anti-ferromagnetic; Field dependence; Irreversible behavior; LiMnPO ₄;

DOI:

10.1016/j.jmmm.2012.05.037

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-84862592344&doi=10.1016%2fj.jmmm.2012.05.037&partnerID=40&md5=8505d8138477e38ebfc3c630cac7e064

Соавторы в МНС:

—

Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84862592344&doi=10.1016%2fj.jmmm.2012.05.037&partnerID=40&md5=8505d8138477e38ebfc3c630cac7e064
Affiliations	Institute of Solid State Chemistry, Ural Branch, Russian Academy of Sciences, Pervomaiskaya st., 91, 620990 Ekaterinburg, Russian Federation; Ural Federal University, 620002 Ekaterinburg, Russian Federation; Institute of Metal Physics, Ural Branch, Russian Academy of Sciences, 620990 Ekaterinburg, Russian Federation; Eliont LLC, 620137 Ekaterinburg, Russian Federation
Author Keywords	Domain structure; LiMnPO 4; Magnetic heterogeneity; Magnetic susceptibility; Neutron diffraction
References	Padhi, A.K., Nanjundaswamy, K.S., Goodenough, J., (1997) Journal of the Electrochemical Society, 144, p. 1188; Padhi, A.K., Nanjundaswamy, K.S., Masquelier, C., Okada, S., Goodenough, J., (1997) Journal of Electrochemical Society, 144, p. 1609; Yamada, A., Chung, S.-C., Hinokuma, K., (2001) Journal of the Electrochemical Society, 148, p. 224; Huang, H., Yin, Y.S., Nazar, C.L.F., (2001) Electrochemical and Solid-State Letters, 4, p. 170; Franger, S., Le Cras, F., Bourbon, C., Rouault, H., (2002) Electrochemical and Solid-State Letters, 5, p. 231; Yamada, A., Chung, S.-C., (2001) Journal of the Electrochemical Society, 148, p. 960; Li, G., Azuma, H., Tohda, M., (2002) Electrochemical and Solid-State Letters, 5, p. 135; Delacourt, C., Poizot, P., Morcrette, M., Tarascon, J.-M., Masquelier, C., (2004) Chemistry of Materials, 16, p. 93; Deniard, P., Dulac, A.M., Rocquefelte, X., Grigorova, V., Lebacq, O., Pasturel, A., Jobic, S., (2004) Journal of Physics and Chemistry of Solids, 65, p. 229; Delacourt, C., Laffont, L., Bouchet, R., Wurm, C., Leriche, J.-B., Morcrette, M., Tarascon, J.-M., Masquelier, C., (2005) Journal of the Electrochemical Society, 152, p. 913; Gwon, H., Seo, D.-H., Kim, S.-W., Kim, J., Kang, K., (2009) Advanced Functional Materials, 19, p. 3285; Wolfenstine, J., (2006) Journal of Power Sources, 158, p. 1431; Fisher, C.A.J., Prieto, V.M.H., Islam, M.S., (2008) Chemistry of Materials, 20, p. 5907; Mizuno, Y., Kotobuki, M., Munakata, H., Kanamura, K., (2009) Journal of Ceramic Society Japan, 117, p. 1225; Choi, D., Wang, D., Bae, I.-T., Xiao, J., Nie, Z., Wang, W., Viswanathan, V.V., Liu, J., (2010) Nano Letters, 10, p. 2799; Moskon, J., Dominko, R., Cerc-Korosec, R., Gaberscek, M., Jamnik, J., (2007) Journal of Power Sources, 174, p. 683; Drezen, T., Kwon, N.-H., Bowen, P., Teerlinck, I., Isono, M., Exnar, I., (2007) Journal of Power Sources, 174, p. 949; Wang, D., Buqa, H., Crouzet, M., Deghenghi, G., Drezen, T., Exnar, I., Kwon, N.-H., Grätzel, M., (2009) Journal of Power Sources, 189, p. 624; Mercier, M., Gareyte, J., Bertaut, E.F., (1967) Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, Series B, 264, p. 979; Santoro, R.P., Segal, D.J., Newnham, R.E., (1966) Journal of Physics and Chemistry of Solids, 27, p. 1192; Santoro, R.P., Newnham, R.E., (1967) Acta Crystallographica, 22, p. 344; Mercier, M., Bertaut, E.F., Quézel, G., Bauer, P., (1969) Solid State Communications, 7, p. 149; Mercier, M., (1969), Thèse de doctorat dEtat, Facultèdes Sciences, Universitè de Grenoble (France); Rivera, J.-P., (1994) Ferroelectrics, 161, p. 147; Geller, S., Easson, J.L., (1960) Acta Crystallographica, 18, p. 258; Mays, J.M., (1963) Physical Review, 131, p. 38; Bozorth, R.M., Kramer, V., (1959) Journal of Physics Radium, 20, p. 393; Li, J., Tian, W., Chen, Y., Zarestky, J.L., Lynn, J.W., Vaknin, D., (2009) Physical Review B, 79, p. 144410; Wizent, N., Behr, G., Lipps, F., Hellmann, I., Klingeler, R., Kataev, V., Loser, W., Buchner, B., (2009) Journal of Crystal Growth, 311, p. 1273; Dai, D., Whangbo, M.-H., Koo, H.-J., Rocquefelte, X., Jobic, S., Villesuzanne, A., (2005) Inorganic Chemistry, 44, p. 2407; Arcon, D., Zorko, A., Cevc, P., Dominiko, R., Bele, M., Jamnik, J., Jaglicic, Z., Golosovsky, I., (2004) Journal of Physics and Chemistry of Solids, 65, p. 1773; Arcon, D., Zorko, A., Dominko, R., Jaglicic, Z., (2004) Journal of Physics: Condensed Matter, 16, p. 5531; Tian, W., Li, J., Li, H., Lynn, J.W., Zarestky, J.L., Vaknin, D., (2010) Journal of Physics: Conference Series, 251, p. 012005; Bini, M., Mozzati, M.C., Galinetto, P., Capsoni, D., Ferrari, S., Grandi, M., Massarotti, V., (2009) Journal of Solid State Chemistry, 182, p. 1972; Zaghib, K., Mauger, A., Gendron, F., Massot, M., Julien, C.M., (2008) Ionics, 14, p. 371; Kellerman, D., Mukhina, N., Gorshkov, V., Tsarev, B., Zhuravlev, N., Zabolotskaya, E., (2010) Advances in Science and Technology, 65, p. 269; Wang, F., Yang, J., Nuli, Y., Wang, J., (2010) Journal of Power Sources, 195, p. 6884; Geller, S., Durand, J.L., (1960) Acta Crystallographica, 13, p. 325; Streltsov, V.A., Belokoneva, E.L., Tsirelson, V.G., Hansen, N.K., (1993) Acta Crystallographica, Section B: Structural Science, 49, p. 147; http://www-llb.cea.fr/fullweb/powder.htm; Greaves, C., (1983) Journal of Solid State Chemistry, 49, p. 325; Chukalkin, Yu.G., Shtirs, V.R., (1990) Fizika Tverdogo Tela, 32, p. 3306; Izyumov, Yu.A., Ozerov, R.P., Magnetic Neutronography (1966) Moskow, , Nauka; Singh, R.P., Tao, Z.C., Singh, M., (1992) Physical Review B, 46, p. 1244; Kellerman, D.G., Zhuravlev, N.A., Verkhovski, S.V., Medvedev, E.Yu., Korolev, A.V., Medvedeva, J.E., (2008) Physics of the Solid State, 50, p. 1294; Itoh, M., Natori, I., Kubota, S., Matoya, K., (1994) Journal of the Physical Society of Japan, 63, p. 1486; Mercier, M., Gareyte, J., (1967) Solid State Communications, 5, p. 139; Dzyaloshinsky, I., (1957) Journal of Physics and Chemistry of Solids, 4, p. 241; Kharchenko, N.F., Kharchenko, Y.N., Shimchak, R., Baran, M., Shmid, G., (2001) Fizika Nizkikh Temperatur, 27, p. 1208; Wong, P.Z., Yoshizawa, H., Shapiro, S.M., (1985) Journal of Applied Physics, 57, p. 3462; Yoshizawa, H., Mitsuda, S., Aruga, H., Ito, A., (1987) Physical Review Letters, 59, p. 2364; Greedan, J.E., Sato, M., Yant, X., (1986) Solid State Communications, 59, p. 895; Rojo, J.M., Mesa, J.L., Lezama, L., Pizarro, J.L., Arriortua, M.I., Rodrguez Fernandez, J., Barberis, G.E., Rojo, T., (2002) Physical Review B, 66, p. 94406; Ramirez, A.P., (1994) Annual Review of Materials Science, 24, p. 453; Tran, V.H., Bukowski, Z., Stepien-Damm, J., Zaleski, A.J., Badurski, D., Gorzelniak, R., Sułkowski, Cz., Troc, R., (2005) Journal of Physics: Condensed Matter, 17, p. 3597; Kalita, V.M., Lozenko, A.F., Ryabchenko, S.M., Trotsenko, P.A., (2005) Fizika Nizkikh Temperatur, 31, p. 1042; Farztdinov, M.M., (1965) Soviet Physics - Uspekhi, 7, p. 855; Billerey, D., Terrier, C., Pointon, A.J., Redoules, J.P., (1980) Journal of Magnetism and Magnetic Materials, 21, p. 187; Chernova, N.A., Song, Y., Zavalij, P.Y., Whittingham, S., (2004) Physical Review B, 70, p. 144405; Zimmermann, A.S., Van Aken, B.B., Schmid, H., Rivera, J.-P., Li, J., Vaknin, D., Fiebig, M., (2009) European Physical Journal B, 71, p. 355; Kharchenko, M.F., Khrustalyov, V.M., Savitsky, V.N., (2010) Fizika Nizkikh Temperatur, 36, p. 698; Fisher, M.E., (1962) Philosophical Magazine, 7, p. 1731
Correspondence Address	Kellerman, D.G.; Institute of Solid State Chemistry, Ural Branch, Russian Academy of Sciences, Pervomaiskaya st., 91, 620990 Ekaterinburg, Russian Federation; email: kellerman@ihim.uran.ru
CODEN	JMMMD
Language of Original Document	English
Abbreviated Source Title	J Magn Magn Mater
Source	Scopus