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The X-ray peak profiling, optical and dielectric properties of Ag@ZnFe2O4/rGO ternary nanocomposites: LED assisted photocatalysis and humidity sensing
Ag@ZnFe2O4/reduced graphene oxide (Ag@ZnFe2O4/rGO) ternary nanocomposites were successfully synthesized (NCs) via hydrothermal method and explored the LED assisted photocatalytic performance for the degradation of organic dyes as well as humidity sensing properties of the material. For comparison, b...
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Published in: | Journal of alloys and compounds 2024-05, Vol.984, p.174012, Article 174012 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | Ag@ZnFe2O4/reduced graphene oxide (Ag@ZnFe2O4/rGO) ternary nanocomposites were successfully synthesized (NCs) via hydrothermal method and explored the LED assisted photocatalytic performance for the degradation of organic dyes as well as humidity sensing properties of the material. For comparison, bare ZnFe2O4, and ZnFe2O4/rGO also synthesized. The freshly prepared samples were investigated using XRD, TEM, UV–vis–NIR spectroscopy, VSM, Impedance analyzer, and particle size analyzer. The detailed structural parameters were calculated through X-ray peak profiling using Classical Scherrer, Modified Scherrer, Williumson-Hall, Halder-Wagner, Size Strain Plot methods along with Rietveld refinement. From UV–vis–DRS analysis, optical energy gaps were obtained in the range of 1.58–1.92 eV. Ag@ZnFe2O4/rGO NCs showed significant photocatalytic activity and exceptional adsorption capacities for the breakdown of methylene blue (MB) 95.7% and rhodamine B (RhB) 77.7% after 100 min. The synergistic interactions of Ag, ZnFe2O4, and rGO minimized NCs agglomeration and small particle size with higher surface area, resulting in a higher absorption in both UV and visible light. The photocatalysis mechanism was explored by scavenger test using ascorbic Acid, NaHCO3, and isopropyl alcohol. The magnetic studies revealed the paramagnetic nature of NCs. Frequency dependent dielectric data obey the modified Debye model with relaxation time of ∼10−4 s and spreading factor of 0.534 (±0.08). Complex impedance measurements support the grain-interior process that contributes to dielectric properties. The impedance-type humidity sensing characteristics of the fabricated sensor were investigated by exposing in a wide humidity range of 11–98% RH at ambient temperature. The Ag@ZnFe2O4/rGO sensor displayed an ultrahigh sensitivity when compared to traditional humidity sensors. On the basis of, Ag@ZnFe2O4/rGO NCs are exciting nanomaterials for outstanding photocatalytic activity for the degradation of organic dyes along with potent humidity sensor.
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•ZnFe2O4, ZnFe2O4/rGO and Ag@ZnFe2O4/rGO NCs were synthesized by hydrothermal method•X-ray peak profile and Rietveld refinement were performed for structural analysis•Dielectric and impedance analysis were performed to explore the electrical feature•Ag@ZnFe2O4/rGO NCs showed highest humidity sensing efficiency than other materials•Highest Photocatalytic activity against MB (96%) was achieved by NCs within 100 min |
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ISSN: | 0925-8388 1873-4669 |
DOI: | 10.1016/j.jallcom.2024.174012 |