R. Umashankara Raja, H. C. Manjunatha, Y. S. Vidya, R. Munirathnam, K. M. Rajashekara, S. Manjunatha, M. Priyanka, E. Krishnakanth
{"title":"掺锌正交铁氧体钙钛矿纳米粒子的结构、磁性和电性:存储器件和高频应用","authors":"R. Umashankara Raja, H. C. Manjunatha, Y. S. Vidya, R. Munirathnam, K. M. Rajashekara, S. Manjunatha, M. Priyanka, E. Krishnakanth","doi":"10.1142/s0217979225500419","DOIUrl":null,"url":null,"abstract":"<p>Calcium ferrite nanoparticles (NPs), doped with Zinc in the range of 10–50<span><math altimg=\"eq-00001.gif\" display=\"inline\" overflow=\"scroll\"><mspace width=\".17em\"></mspace></math></span><span></span>mol%, were synthesized through a solution combustion method using citrus Limon extract as a reducing agent, followed by calcination at 500<sup>∘</sup>C. The synthesized samples are characterized with different techniques. Bragg reflections confirmed the formation of orthorhombic crystal structure. The shifting of the peak toward higher angle side is observed with increase in the dopant concentration. The surface exhibited irregular shapes and sized NPs with pores and voids in their morphology. The direct energy band gap increases from 2.91 to 2.97<span><math altimg=\"eq-00002.gif\" display=\"inline\" overflow=\"scroll\"><mspace width=\".17em\"></mspace></math></span><span></span>eV with increase in Zinc concentration. Further, magnetic and dielectric properties were carried out to know their importance in the high-frequency devices. Magnetic parameters, such as saturation magnetization (M<sub><i>s</i></sub>), remanence (M<sub><i>r</i></sub>), and coercivity (H<sub><i>c</i></sub>) values, are discussed. M<sub><i>s</i></sub>, M<sub><i>r</i></sub> and H<sub><i>c</i></sub> increase with increase in dopant concentration upto 30<span><math altimg=\"eq-00003.gif\" display=\"inline\" overflow=\"scroll\"><mspace width=\".17em\"></mspace></math></span><span></span>mol% and thereafter decreases. The dielectric studies revealed a decreasing dielectric constant from 2.98 to 1.84 as the dopant concentration increased. These findings suggest the potential use of these samples in memory devices and high-frequency applications.</p>","PeriodicalId":14108,"journal":{"name":"International Journal of Modern Physics B","volume":"114 1","pages":""},"PeriodicalIF":2.6000,"publicationDate":"2024-03-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The structural, magnetic and electrical properties of zinc-doped orthorhombic calcium ferrite nanoparticles: Memory device and high-frequency applications\",\"authors\":\"R. Umashankara Raja, H. C. Manjunatha, Y. S. Vidya, R. Munirathnam, K. M. Rajashekara, S. Manjunatha, M. Priyanka, E. Krishnakanth\",\"doi\":\"10.1142/s0217979225500419\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Calcium ferrite nanoparticles (NPs), doped with Zinc in the range of 10–50<span><math altimg=\\\"eq-00001.gif\\\" display=\\\"inline\\\" overflow=\\\"scroll\\\"><mspace width=\\\".17em\\\"></mspace></math></span><span></span>mol%, were synthesized through a solution combustion method using citrus Limon extract as a reducing agent, followed by calcination at 500<sup>∘</sup>C. The synthesized samples are characterized with different techniques. Bragg reflections confirmed the formation of orthorhombic crystal structure. The shifting of the peak toward higher angle side is observed with increase in the dopant concentration. The surface exhibited irregular shapes and sized NPs with pores and voids in their morphology. The direct energy band gap increases from 2.91 to 2.97<span><math altimg=\\\"eq-00002.gif\\\" display=\\\"inline\\\" overflow=\\\"scroll\\\"><mspace width=\\\".17em\\\"></mspace></math></span><span></span>eV with increase in Zinc concentration. Further, magnetic and dielectric properties were carried out to know their importance in the high-frequency devices. Magnetic parameters, such as saturation magnetization (M<sub><i>s</i></sub>), remanence (M<sub><i>r</i></sub>), and coercivity (H<sub><i>c</i></sub>) values, are discussed. M<sub><i>s</i></sub>, M<sub><i>r</i></sub> and H<sub><i>c</i></sub> increase with increase in dopant concentration upto 30<span><math altimg=\\\"eq-00003.gif\\\" display=\\\"inline\\\" overflow=\\\"scroll\\\"><mspace width=\\\".17em\\\"></mspace></math></span><span></span>mol% and thereafter decreases. The dielectric studies revealed a decreasing dielectric constant from 2.98 to 1.84 as the dopant concentration increased. 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The structural, magnetic and electrical properties of zinc-doped orthorhombic calcium ferrite nanoparticles: Memory device and high-frequency applications
Calcium ferrite nanoparticles (NPs), doped with Zinc in the range of 10–50mol%, were synthesized through a solution combustion method using citrus Limon extract as a reducing agent, followed by calcination at 500∘C. The synthesized samples are characterized with different techniques. Bragg reflections confirmed the formation of orthorhombic crystal structure. The shifting of the peak toward higher angle side is observed with increase in the dopant concentration. The surface exhibited irregular shapes and sized NPs with pores and voids in their morphology. The direct energy band gap increases from 2.91 to 2.97eV with increase in Zinc concentration. Further, magnetic and dielectric properties were carried out to know their importance in the high-frequency devices. Magnetic parameters, such as saturation magnetization (Ms), remanence (Mr), and coercivity (Hc) values, are discussed. Ms, Mr and Hc increase with increase in dopant concentration upto 30mol% and thereafter decreases. The dielectric studies revealed a decreasing dielectric constant from 2.98 to 1.84 as the dopant concentration increased. These findings suggest the potential use of these samples in memory devices and high-frequency applications.
期刊介绍:
Launched in 1987, the International Journal of Modern Physics B covers the most important aspects and the latest developments in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. A strong emphasis is placed on topics of current interest, such as cold atoms and molecules, new topological materials and phases, and novel low dimensional materials. One unique feature of this journal is its review section which contains articles with permanent research value besides the state-of-the-art research work in the relevant subject areas.
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