Magnetoresistance of LSMO/(Cu 2 O, Ag) composites

Andrey A. Utoplov; Утоплов Андрей Александрович; Natalia V. Prutsakova; Пруцакова Наталья Викторовна; Angela G. Rudskaya; Рудская Анжела Григорьевна; Alexander V. Nazarenko; Назаренко Александр Владимирович; Mark V. Belokobylsky; Белокобыльский Марк Вячеславович; Yuri V. Kabirov; Кабиров Юрий Вагизович

doi:10.26456/pcascnn/2024.16.307

Magnetoresistance of LSMO/(Cu₂O, Ag) composites

Authors: Utoplov A.A.¹, Prutsakova N.V.², Rudskaya A.G.¹, Nazarenko A.V.³, Belokobylsky M.V.¹, Kabirov Y.V.¹
Affiliations:
1. Southern Federal University
2. Don State Technical University
3. Federal Research Centre Southern Scientific Centre of the Russian Academy of Sciences
Issue: No 16 (2024)
Pages: 307-317
Section: Experimental studies of nanoparticles, nanosystems and nanomaterials
URL: https://bakhtiniada.ru/2226-4442/article/view/319436
DOI: https://doi.org/10.26456/pcascnn/2024.16.307
EDN: https://elibrary.ru/LEBMEP
ID: 319436

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Abstract

Electrical, structural and magnetoresistive properties of ceramic composites with different mass ratios of components were synthesized and studied: ( Cu ₂ O + CuO ) _x /( La _0,7 Sr _0,3 MnO ₃)_{1- x} ( x = 0,17; 0,22; 0,33; 0,43; 0,48; 0,53; 0,58; 0,63; 0,68; 0,72; 0,77; 0,82; 0,86; 0,91; 0,99), and Ag_y /( La _0,7 Sr _0,3 MnO ₃)_{1- y} ( y = 0; 0,02; 0,06; 0,08; 0,10; 0,12; 0,25; 0,50). The composites with copper oxides were synthesized using an original technology for sample preparation using dispersed copper and a pre-prepared ferromagnetic oxide with the perovskite structure La _{0,7 Sr 0,3 MnO 3}. Pressed mixtures with a copper content of less than 45% by weight were annealed at a temperature of 1050°C. At higher copper contents, annealing was performed at 1000°C. The compositions with silver nanoparticles were prepared by reduction from silver nitrate. The composites were synthesized using an original technology for sample preparation using dispersed copper and La _{0,7 Sr 0,3 MnO 3} manganite with annealing at 1000-1050°C. It was shown that the synthesized composites with a mass ratio of components ( Cu ₂ O + CuO )_0,43/( La _0,7 Sr _0,3 MnO ₃)_0,57 exhibit the highest magnetoresistance values of about 7% in a constant magnetic field of 14 kOe at room temperature. The maximum magnetoresistance correlates with a special region of change in the dependence of electrical resistance on the component ratio in these compositions. In the Ag _0,08/( LSMO )_0,92 composition, the magnetoresistance values reach 5,5%.

Keywords

ceramic composites, magnetoresistance, Lanthanum-strontium manganite, copper oxides, silver nanoparticles, percolation

References

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Magnetoresistance of LSMO/(Cu2O, Ag) composites

Full Text

Abstract

Keywords

About the authors

Andrey A. Utoplov

Natalia V. Prutsakova

Angela G. Rudskaya

Alexander V. Nazarenko

Mark V. Belokobylsky

Yuri V. Kabirov

References

Supplementary files

Magnetoresistance of LSMO/(Cu₂O, Ag) composites