Journal
ACS OMEGA
Volume 8, Issue 38, Pages 34760-34767Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsomega.3c03781
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In this study, Mg1-xZnxFe2O4 (MZFO) nanoparticles with varying Zn substitution were synthesized and their structural, dielectric, and gas-sensing properties were investigated. The results showed that Zn substitution decreased the dielectric constant and loss of MZFO with increasing frequencies, reaching a saturation value at higher frequencies. Additionally, MZFO exhibited high sensitivity and a good response time for CO2.
In the present work, Mg1-xZnxFe2O4 (MZFO) nanoparticles with x = 0.0, 0.2, 0.35, and 0.5 were synthesized via a chemical coprecipitation method. The study aimed to explore the effect of substituting Mg with Zn in MZFO on its structural, dielectric, and gas-sensing properties. The spinel phase formation was confirmed using X-ray diffraction, and the morphology of the prepared nanoparticles was revealed using scanning electron microscopy. Fourier transform infrared spectroscopy (FTIR) analysis confirmed the band ranges of 500-600 cm(-1) for tetrahedral and 390-450 cm(-1) for octahedral lattice sites. The dielectric data showed that Zn substitution in MZFO decreased both the dielectric constant and loss with increasing frequencies and attained a stagnant value at higher frequencies. Furthermore, the gas-sensing characteristics of Zn-substituted spinel ferrites at room temperature for CO2, O-2, and N-2 were studied. The nanostructured MZFO exhibited high sensitivity in the order of CO2 > O-2 >> N-2 and showed a good response time of (similar to 1 min) for CO2, demonstrating that MZFO can be a good potential candidate for gas-sensing applications.
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