Synthesis and X-ray examination of neodymium and magnesium double nickel-manganite NdMg2NiMnO6

Authors

DOI:

https://doi.org/10.15328/cb2025_66

Keywords:

nickel-manganite, alkaline earth metal, solid-phase synthesis, X-ray diffraction, indexing, IR spectrum

Abstract

Manganites-perovskites are an important class of materials with unique physical properties such as tremendous magnetoresistance and magnetocaloric effect. They have a perovskite structure and can be described by the general formula AMnO₃, where A is a rare earth or alkali metal and Mn is manganese.

The introduction of dopants into the composition of rare-earth element manganite can serve as an effective way to improve the properties of semiconductors. The aim of this work is the synthesis and X-ray diffraction study of a new nickelite-manganite of neodymium and magnesium of the composition NdMg2NiMnO6.

A new nickelite-manganite of neodymium and magnesium composition NdMg2NiMnO6 was synthesized by the method of ceramic technology. The identification was carried out by XRD method. On the basis of indication it was found that NdMg2NiMnO6 crystallizes in cubic syngony with the following lattice parameters: a=10.056 ± 0.067 Å; Z=4; Vo=4139.39 ± 0.20 Å3; Vounit cell.=1034.85 ± 0.02 Å3, rх-ray.=2.5824; rpycn. =2.4970 ± 0.052 g/cm3. The tolerance factor t=0.90, which is a criterion of structure stability, was calculated. IR spectra of the investigated nickelite-manganite were obtained.

The obtained results are of interest for further work on the study of thermodynamic, electrophysical properties of this compound and can be used in inorganic materials science to obtain similar substances with promising physical and chemical properties, and as initial information arrays for loading into fundamental data banks on X-ray characteristics.

Author Biographies

Sh.B. Kasenova, Abishev Chemical and Metallurgical Institute, Karaganda, Kazakhstan

Doctor of chemical sciences, professor, chief researcher of the laboratory of thermochemical processes of Abishev Chemical-Metallurgical Institute, Karaganda, Kazakhstan, e-mail: kasenovashuga@mail.ru

Zh.I. Sagintayeva, Химико-металлургический институт им. Ж. Абишева, Караганда, Казахстан

Сandidate of chemical sciences, associate professor, leading researcher of the laboratory of thermochemical processes of Abishev Chemical-Metallurgical Institute, Karaganda, Kazakhstan, e-mail: kai_sagintaeva@mail.ru

B.K. Kasenov, Abishev Chemical and Metallurgical Institute, Karaganda, Kazakhstan

Doctor of chemical sciences, professor, head of the laboratory of thermochemical processes of Abishev Chemical-Metallurgical Institute, Karaganda, Kazakhstan, e-mail: kasenov1946@mail.ru

E.E. Kuanyshbekov, Abishev Chemical and Metallurgical Institute, Karaganda, Kazakhstan

Master of engineering, senior researcher of the laboratory of thermochemical processes of Abishev Chemical-Metallurgical Institute, Karaganda, Kazakhstan, e-mail: mr.ero1986@mail.ru

A.Т. Ordabayeva, Institute of Organic Synthesis and Chemistry of Coal of RK, Karaganda, Kazakhstan

Сandidate of chemical sciences head of the laboratory of Coal Chemistry, Institute of Organic Synthesis and Chemistry of Coal of Kazakhstan Republic, Karaganda, Kazakhstan, e-mail: aigul_serik_kz@mail.ru

M.A. Isabayeva, Toraigyrov University, Pavlodar, Kazakhstan

Candidate of Chemical Sciences, Professor of the Department of Chemistry and Chemical Technology of NAO "Toraigyrov University", Pavlodar, Kazakhstan, e-mail: isabaeva.manar@mail.ru

E.M. Temirbaeva, Abishev Chemical and Metallurgical Institute, Karaganda, Kazakhstan

Engineer of the 2nd category of the Laboratory of Thermochemical Processes of the Chemical and Metallurgical Institute named after Zh.Abishev, Karaganda, Kazakhstan, e-mail: eldira.110203@mail.ru

References

1 Bebenin NG, Zainullina RI, Ustinov VV (2018) Physics-Uspekhi 61:719-738. https://doi.org/10.3367/UFNe.2017.07.038180

2 Gadjiev AB, Gamzatov AG, Batdalov AB, Hurshilova ZA, Aliev AM (2022) Physics of the Solid State 64:2261-2265. https://doi.org/10.21883/PSS.2022.14.54326.28s

3 Lassoued RA, Massoudi J, Jeddi M, Dhahri E, Bessais L (2023) Journal of Materials Research 38:4559-4572. https://doi.org/10.1557/s43578-023-01171-x

4 Zhou Y, Wu X, Wu W, Wen Ch, Wang Q (2018) Journal of Superconductivity and Novel Magnetism 31:521-528. https://doi.org/10.1007/s10948-017-4200-8

5 Kharrat N, Chihaoui S, Cheikhrouhou-Koubaa W, Koubaa M, Cheikhrouhou A (2018) Journal of Materials Science: Materials in Electronics 29:17187-17194. https://doi.org/10.1007/s10854-018-9810-9

6 Konstantinova EI, Litvinov VA, Koryakov AD, Leonidov IA (2023) Žurnal neorganičeskoj himii 68:1398-1404. (In Russian). https://doi.org/10.31857/S0044457X23600536

7 Johan Cedervall, Ivanov SA,·Lewin Е, Beran Р, Andersson МS, Faske Т, Bazuev GV, Nordblad P,·Sahlberg M, Mathieu R. (2019) Journal of Materials Science. Materials in Electronics 30:16571-16578. https://doi.org/10.1007/s10854-019-02035-z

8 Chen H, Cao Zh, Wang L, He W, Sun J, Zhang Y, Ruan X (2014) Journal of Alloys and Compounds 616:213-220. https://doi.org/10.1016/j.jallcom.2014.07.119

9 S. Pal S, Jana S, Govinda S, Pal B, Mukherjee S, et al. (2019) Phys Rev B 100(4):045122. https://doi.org/10.1103/PhysRevB.100.045122

10 Anirban S, Dutta A (2021) Journal of Physics and Chemistry of Solids 159:110292 https://doi.org/10.1016/j.jpcs.2021.110292

11 Ahmad J, Hassan S, Khan JA, Nissar U, Abbas H (2021) Proceedings of the Pakistan Academy of Sciences: A. Physical and Computational Sciences 58(2):59–71. https://doi.org/10.53560/PPASA(58-2)610

12 Pankov VV, Ivashenko DV. (2021) Computational nanotechnology 8:18-23. (In Russian). https://doi.org/10.33693/2313-223X-2021-8-2-18-23

13 Gavrilova LYa (2008) Methods of synthesis and research of promising materials [Metody sinteza i issledovanie perspektivnyh materialov]. Textbook. Yekaterinburg: USU. 74 p. (In Russian).

14 Kasenov BK, Kasenova ShB, Sagintaeva ZhI, Kuanyshbekov EE, Mukhtar AA, et al. (2021) Metalurgija. (Croatia) 60(3-4):447-450.

15 Kassenov BK, Kassenova ShB, Sagintaeva ZhI, Ermagambet BT, Kuanyshbekov EE, Mukhtar AA (2021) Metalurgija. (Croatia) 60(3-4): 454-456.

16 Kasenov BK, Kasenova ShB, Sagintaeva ZhI, Kuanyshbekov EE, Mukhtar AA, Kakenov KS (2022) High Temperature 60(1):45-49. https://doi.org/ 10.1134/s0018151x22010114

17 Kasenov BK, Kasenova ShB, Sagintaeva ZhI, Kuanyshbekov EE, Mukhtar AA, Kakenov KS (2022) High Temperature 60(4):474-478. (In English). https://doi.org/10.1134/s0018151x22020225

18 Kasenov BK, Kasenova ShB, Sagintaeva ZhI, Baisanov SO, Lu NYu, et al. (2023) Molecules 28: 5194. https://doi.org/10.3390/molecules28135194

19 Kovba LM, Trunov VK (1976) X-ray phase analysis [Rentgenofazovyj analiz]. Moscow: Moscow State University, 2nd ed. 256 p. (In Russian)

20 Monina LN (2016) Radiography. Qualitative X-ray phase analysis [Rentgenografiya. Kachestvennyj rentgenofazovyj analiz]. The training manual. Tyumen: Tyumen State University, 120 p. (In Russian)

21 Khabas TA, Vakalova TV, Gromov AA, et al. (2007) X-ray phase analysis. //Methodological guidelines. Tomsk Polytechnic University, Tomsk, Russia. 40 p. (In Russian)

22 Kivilis SS (1959) Technique of measuring the density of liquids and solids [Tekhnika izmerenij plotnosti zhidkostej i tverdyh tel]. Standartgiz, Moscow, USSR.

23 Likun P, Zhu G (eds.) (2016) Perovskite Materials: Synthesis, Characterisation, Properties, and Applications. ExLi4EvA Copyright. 637 р. ISBN-10:953-51-2245-2

24 Database of Ionic Radii http://abulafia.mt.ic.ac.uk›shannon/

25 Wells AF (1987) Structural inorganic chemistry. Mir, Moscow, USSR. 2:696 р.

26 Kostrominka NA, Kumok VN, Skorik NA (1990) Chemistry of coordination compounds [Himiya koordinacionnyh soedinenij]. Higher School, Moscow, USSR. 432 p. ISBN: 5-06-001020-1.

27 Nakamoto K (1991) IR and RAMAN spectra of inorganic and coordination compounds [IK spektry i spektry KR neorganicheskih i koordinacionnyh soedinenij]. Mir, Moscow, USSR. ISBN: 5-03-001749-6.

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Published

2025-12-30

How to Cite

Kasenova, S., Sagintayeva, Z., Kasenov, B., Kuanyshbekov, E., Ordabayeva, A., Isabayeva, M., & Temirbaeva, E. (2025). Synthesis and X-ray examination of neodymium and magnesium double nickel-manganite NdMg2NiMnO6. Chemical Bulletin of Kazakh National University, 117(4), 48–54. https://doi.org/10.15328/cb2025_66

Issue

Vol. 117 No. 4 (2025): Chemical Bulletin of Kazakh National University

Section

Inorganic Chemistry

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