Effect of calcination temperatures on optical and magnetic properties of FeWO4 nanoparticles

Effect of calcination temperatures on optical and magnetic properties of FeWO4 nanoparticles

Calcination temperature is a crucial parameter that can be easily controlled to induce a change in material properties. Herein, iron tungstate (FeWO ) was synthesized via a hydrothermal method using iron(II) sulfate heptahydrate and sodium tungstate dihydrate as precursors and calcined at the temper...

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Veröffentlicht in:Polish journal of chemical technology 2024-03, Vol.26 (1), p.16-23
Hauptverfasser: Nguyen, Anh Q.K., Tran, Thi K.N., Hoang, Bich N., Quyen, Ngo T.C., Huynh, Tai T., Yen, Nguyen P., Nguyen, Bich N.
Format: Artikel
Sprache:eng
Schlagworte:
Calcination temperature
Chemical elements
Crystal defects
Crystal structure
Electron microscopes
Hydrothermal crystal growth
Hydrothermal synthesis
Iron sulfates
Iron tungstate
Magnetic
Magnetic properties
Magnetic saturation
Material properties
Morphology
Nanomaterials
Nanoparticles
Optical
Optical properties
Roasting
Spectrum analysis
Temperature
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Zusammenfassung:Calcination temperature is a crucial parameter that can be easily controlled to induce a change in material properties. Herein, iron tungstate (FeWO ) was synthesized via a hydrothermal method using iron(II) sulfate heptahydrate and sodium tungstate dihydrate as precursors and calcined at the temperature between 300 C and 700 C. With increasing calcination temperature, the saturation magnetization of FeWO nanoparticles decreased from 6.6 emu/g for FeWO to 0.4 emu/g for FeWO4_700, whereas their band gaps increased from 1.95 eV for FeWO to 2.20 eV for FeWO4_700. More crystallinity and crystal defects, and morphological changes at higher calcination temperatures contributed to varying magneto-optical properties of FeWO nanoparticles.
ISSN:1509-8117
1899-4741
DOI:10.2478/pjct-2024-0003