Effect of Thermal Treatment on the Structure and Morphology of Vanadium Doped ZnO Nanostructures Obtained by Microwave Assisted Sol–Gel Method

Abstract: In this paper, we conducted a fundamental study concerning the effect of thermal treatment on the structure and morphology of 2 mol% vanadium doped ZnO nanopowders obtained by microwave assisted sol–gel method (MW). The samples were analyzed by DTA, FTIR, XRD, SEM, and UV–Vis spectroscopy. The DTA results showed that above 500 °C, there was no mass loss in the TG curves, and ZnO crystallization occurred. The XRD patterns of the thermally treated powders at 500 °C and 650 °C showed the crystallization of ZnO (z… Show more

“…Following this, almost no significant weight loss was observed in the range of 320–700 °C, indicating that the Cu 2 V 2 O 7 system can be obtained with tunable phase and crystalline properties when annealed within this temperature range. The further weight loss observed beyond 700 °C may be attributed to the deformation of the Cu 2 V 2 O 7 phase into other phases due to the volatile nature of the elements (Cu, V, and O) in the material. , …”

“…The further weight loss observed beyond 700 °C may be attributed to the deformation of the Cu 2 V 2 O 7 phase into other phases due to the volatile nature of the elements (Cu, V, and O) in the material. 33,34 Characterization. Thermogravimetric analysis was carried out using the PerkinElemer-TGA-4000 instrument in the range from room temperature to 800 °C at a ramping rate of 5 °C/min under a N 2 environment.…”

CuO–V₂O₅ Composite vs Single-Phase Cu₂V₂O₇: Understanding the Synergy of Mixed-Metal Oxides in Customizing Their Properties for Improved Hydrogen Evolution Reaction

“…Following this, almost no significant weight loss was observed in the range of 320–700 °C, indicating that the Cu 2 V 2 O 7 system can be obtained with tunable phase and crystalline properties when annealed within this temperature range. The further weight loss observed beyond 700 °C may be attributed to the deformation of the Cu 2 V 2 O 7 phase into other phases due to the volatile nature of the elements (Cu, V, and O) in the material. , …”

“…The further weight loss observed beyond 700 °C may be attributed to the deformation of the Cu 2 V 2 O 7 phase into other phases due to the volatile nature of the elements (Cu, V, and O) in the material. 33,34 Characterization. Thermogravimetric analysis was carried out using the PerkinElemer-TGA-4000 instrument in the range from room temperature to 800 °C at a ramping rate of 5 °C/min under a N 2 environment.…”

CuO–V₂O₅ Composite vs Single-Phase Cu₂V₂O₇: Understanding the Synergy of Mixed-Metal Oxides in Customizing Their Properties for Improved Hydrogen Evolution Reaction

“…The best optical properties were obtained for the Ag-doped ZnO sample thermally treated at 450 • C [58]. The temperature of the thermal treatment of powders obtained by the sol-gel method has a strong influence on the optical properties [58,81,82].…”

Coinage Metals Doped ZnO Obtained by Sol-Gel Method—A Brief Review

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