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W2000889548 abstract "Pure and strontium doped zinc ferrite (Zn1−xSrxFe2O4) nanoparticles were prepared by the microwave combustion method using urea as the fuel. Rietveld refinements of X-ray diffraction pattern confirm the formation of single cubic spinel phase with an average crystallite size in the range of 25–42 nm. The broad visible emission band is observed in the entire photoluminescence spectrum. The estimated band gap energy is found to decrease with increasing Sr content, i.e. 2.1–1.72 eV. Magnetic measurements at room temperature revealed that at lower Sr concentration (x≤0.2), the system shows a superparamagnetic behavior, whereas at higher Sr concentration (x≥0.2), it becomes ferromagnetic. The relatively high saturation magnetization of the as-prepared Sr-doped ZnFe2O4 nanoparticles suggest that this method is suitable for preparing high-quality nanocrystalline magnetic ferrites for practical applications. The mechanism for the formation of ZnFe2O4 by the microwave combustion method is also discussed in the present study. Microwave combustion produced sufficient energy for the formation of ZnFe2O4, because of its homogeneous distribution within the raw materials. This results in the formation of nanoparticles and early phase formation within few minutes of time." @default.
W2000889548 created "2016-06-24" @default.
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W2000889548 date "2013-07-01" @default.
W2000889548 modified "2023-10-03" @default.
W2000889548 title "Microwave combustion synthesis, structural, optical and magnetic properties of Zn1−xSrxFe2O4 nanoparticles" @default.
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W2000889548 cites W1971474014 @default.
W2000889548 cites W1973821412 @default.
W2000889548 cites W1975021620 @default.
W2000889548 cites W1993177238 @default.
W2000889548 cites W1995502989 @default.
W2000889548 cites W1996138567 @default.
W2000889548 cites W1998776614 @default.
W2000889548 cites W2004048238 @default.
W2000889548 cites W2007498347 @default.
W2000889548 cites W2007514253 @default.
W2000889548 cites W2007615507 @default.
W2000889548 cites W2008944512 @default.
W2000889548 cites W2009505417 @default.
W2000889548 cites W2009724683 @default.
W2000889548 cites W2012949446 @default.
W2000889548 cites W2014128834 @default.
W2000889548 cites W2017224197 @default.
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W2000889548 cites W2018639156 @default.
W2000889548 cites W2021933669 @default.
W2000889548 cites W2026616987 @default.
W2000889548 cites W2030784744 @default.
W2000889548 cites W2037142618 @default.
W2000889548 cites W2037397136 @default.
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W2000889548 cites W2070126401 @default.
W2000889548 cites W2072714282 @default.
W2000889548 cites W2074313281 @default.
W2000889548 cites W2075235178 @default.
W2000889548 cites W2075399396 @default.
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W2000889548 cites W2081771411 @default.
W2000889548 cites W2083768293 @default.
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W2000889548 cites W2129215801 @default.
W2000889548 cites W2136380263 @default.
W2000889548 cites W2139420950 @default.
W2000889548 cites W2150509815 @default.
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W2000889548 doi "https://doi.org/10.1016/j.ceramint.2013.01.012" @default.
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