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W3102169543 endingPage "116102" @default.
W3102169543 startingPage "116102" @default.
W3102169543 abstract "Abstract This work focused on the impact of synthesis routes on the structural, microstructural, magnetic, electrical and dielectric characteristics of Mg 1− x Zn x Fe 2 O 4 ( x = 0.00, 0.25, 0.50, 0.75, and 1.00) nanocrystals manufactured via the ceramic and green approach sol–gel route. The powder X-ray diffraction (XRD) analysis reveals that the entire synthesized ferrite solids crystallize in single phase spinel structure. The XRD outcomes highlight the impact of the synthesis routes and Zn 2+ replacement on the morphology, crystallite size and structural parameters of magnesium nano-ferrites. The transmission electron microscopy (TEM) images illustrate that the process of synthesis causes extensive lessening of grain and crystallite sizes. The magnetic study reveals that the magnetic properties of magnesium ferrite can be tuned by zinc substitution. The saturation magnetization ( Ms ), retentivity ( Mr ), coercive force ( Hc ) and magneton number diminutions meaningfully with the replacement of diamagnetic Zn 2+ ions in Mg-ferrite for both the synthesized systems. The deterioration of magnetic parameters with Zn 2+ substitution can be clarified on the base of the random spin canting model. Likewise, the magnetic parameters, enhanced meaningfully for sol-gel derived samples this can be attributed due to decline of crystallite size effect. The DC electric resistivity displays NTCR behaviour like ideal semiconducting materials for all the produced samples. The DC resistivity values of sol-gel produced samples were found to be little bit higher than that of ceramic derived samples. The experimental dielectric constant as a function of frequency behaviour can be elucidated with the support of the heterogeneous model of the polycrystalline structure of ferrites. The dielectric constant and loss tangent decreases with Zn 2+ content for both the systems. The dielectric constant enhances for sol-gel derived samples; however, lower values of loss tangent were found. The obtained outcomes can be suitable for multifunctional applications in electronics devices and biomedical field." @default.
W3102169543 created "2020-11-23" @default.
W3102169543 creator A5003918320 @default.
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W3102169543 date "2020-11-01" @default.
W3102169543 modified "2023-10-12" @default.
W3102169543 title "Tuning of physical properties of multifunctional Mg-Zn spinel ferrite nanocrystals: a comparative investigations manufactured via conventional ceramic versus green approach sol-gel combustion route" @default.
W3102169543 cites W1000263295 @default.
W3102169543 cites W1438788548 @default.
W3102169543 cites W1966038902 @default.
W3102169543 cites W1980376519 @default.
W3102169543 cites W1989360674 @default.
W3102169543 cites W1992386997 @default.
W3102169543 cites W1992597278 @default.
W3102169543 cites W1998100412 @default.
W3102169543 cites W1998725709 @default.
W3102169543 cites W2000259206 @default.
W3102169543 cites W2005809600 @default.
W3102169543 cites W2009185243 @default.
W3102169543 cites W2019666867 @default.
W3102169543 cites W2020905589 @default.
W3102169543 cites W2025268968 @default.
W3102169543 cites W2026945260 @default.
W3102169543 cites W2033199261 @default.
W3102169543 cites W2035717320 @default.
W3102169543 cites W2036596611 @default.
W3102169543 cites W2036987384 @default.
W3102169543 cites W2039876694 @default.
W3102169543 cites W2042469241 @default.
W3102169543 cites W2047165001 @default.
W3102169543 cites W2051937794 @default.
W3102169543 cites W2052829548 @default.
W3102169543 cites W2054408555 @default.
W3102169543 cites W2062377415 @default.
W3102169543 cites W2073971079 @default.
W3102169543 cites W2081214665 @default.
W3102169543 cites W2085434636 @default.
W3102169543 cites W2086664516 @default.
W3102169543 cites W2089187713 @default.
W3102169543 cites W2090735122 @default.
W3102169543 cites W2094626329 @default.
W3102169543 cites W2097128966 @default.
W3102169543 cites W2123708469 @default.
W3102169543 cites W2135846523 @default.
W3102169543 cites W2139420950 @default.
W3102169543 cites W2178801521 @default.
W3102169543 cites W2318926097 @default.
W3102169543 cites W2327392891 @default.
W3102169543 cites W2415068017 @default.
W3102169543 cites W2467412236 @default.
W3102169543 cites W2471192205 @default.
W3102169543 cites W2472596333 @default.
W3102169543 cites W2531428281 @default.
W3102169543 cites W2536141942 @default.
W3102169543 cites W2628400045 @default.
W3102169543 cites W2735586378 @default.
W3102169543 cites W2736358667 @default.
W3102169543 cites W2755926896 @default.
W3102169543 cites W2765428891 @default.
W3102169543 cites W2767148933 @default.
W3102169543 cites W2769938418 @default.
W3102169543 cites W2774291344 @default.
W3102169543 cites W2793788198 @default.
W3102169543 cites W2906748270 @default.
W3102169543 cites W2911789985 @default.
W3102169543 cites W2938307277 @default.
W3102169543 cites W2943838431 @default.
W3102169543 cites W2944634674 @default.
W3102169543 cites W2947445073 @default.
W3102169543 cites W2981077846 @default.
W3102169543 cites W2995822925 @default.
W3102169543 cites W3000511175 @default.
W3102169543 cites W3003218990 @default.
W3102169543 cites W3005333561 @default.
W3102169543 cites W3027417999 @default.
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W3102169543 doi "https://doi.org/10.1088/2053-1591/abca6c" @default.
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