Hydrothermal synthesis of vanadium pentoxide nanostructures and their morphology control

Yu, Weijie; Wang, Jinxing; Gou, Zhongping; Zeng, Wen; Guo, Weiwei; Lin, Liyang

doi:10.1016/j.ceramint.2012.09.029

Cited by 33 publications

(9 citation statements)

References 18 publications

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“…Nevertheless, the surface area of BiVO 4 particles rapidly increased with treatment time, and multimorphological features of BiVO 4 particles were distinctly observed. If various reaction times were used in conjunction with different temperatures, multimorphological features of BiVO 4 particles were reported to be more diverse in one system [41]. For instance, flake-ball superstructures with obvious edges were observed in Figure 3(e) (see Figure 3 inset), which agreed well with BiVO 4 monoclinic structure seen in the XRD pattern ( Figure 2, BiVO 4 (C+H-200-24)).…”

Section: Resultssupporting

confidence: 60%

Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB

Ran

McEvoy

Zhang

2015

International Journal of Photoenergy

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Monoclinic BiVO 4 powders were synthesized via a novel route using potassium metavanadate (KVO 3 ) prepared by calcination of K 2 CO 3 and V 2 O 5 as a starting material and followed by hydrothermal treatment and were investigated for the degradation of Rhodamine B (RhB) under visible light irradiation. The synthesized BiVO 4 particles were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray photoelectron spectroscopy (XPS), and UV-Visible (UV-Vis) light diffuse reflectance spectrophotometry. The synthesis produced pure monoclinic BiVO 4 particles with multimorphological features containing flowerlike, flake-ball, flake, cuboid-like, and plate-like shapes and exhibited strong absorption in the visible light range. The BiVO 4 prepared via KVO 3 possessed excellent photocatalytic activity for the degradation of RhB under visible light. The performance of this catalyst was found to be superior to other BiVO 4 photocatalysts prepared via ammonium metavanadate (NH 4 VO 3 ) using coprecipitation, combustion, and calcination methods reported in literature, respectively.

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Section: Resultssupporting

confidence: 60%

Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB

Ran

McEvoy

Zhang

2015

International Journal of Photoenergy

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“…The highly intense peak at 20.16 ° shows well-ordered and regular crystal growth along c-direction (001). [15][16] The lattice parameters calculated from the patterns are a = 11.53 Å, b = 3.57 Å, c = 4.375 Å and these parameters well match the JCPDS data.…”

Section: X-ray Diffraction (Xrd)supporting

confidence: 63%

Hydrothermally Prepared Vanadium Oxide Nanostructures for Photocatalytic Application

Babar¹,

Pisal²,

Sutar³

et al. 2022

ES Energy Environ.

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In the present work, vanadium pentoxide (V 2 O 5 ) nanoparticles have been successfully prepared by a simple hydrothermal method. The effect of annealing on the photocatalytic degradation of methylene blue (MB) dye is studied. Structure of V 2 O 5 is confirmed by X-ray diffraction (XRD) and Raman spectroscopy, while Fourier transform infrared (FTIR) spectroscopy is used for functional group detection. Agglomerated nanoparticle morphology is observed via scanning electron microscopy (SEM). The direct band gap of V 2 O 5 is 2.63-2.81 eV calculated using ultraviolet-visible (UV) spectra. Finally, the photocatalytic degradation of MB dye by V 2 O 5 is studied. The results indicate a promising and enhanced degradation property of calcinated V 2 O 5 . Very small quantity calcinated V 2 O 5 shows about 68% degradation of MB within 80 min, and the rate constant for calcinated product is 9.9 × 10 -5 s -1 .

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“…6 As a result, a number of studies have been reported on the growth of crystalline and amorphous V 2 O 5 coatings including the wet chemistry routes such as sol-gel processing, electrodeposition and hydrothermal synthesis. [7][8][9] The electrochemical lithium insertion into sol-gel crystalline vanadium pentoxide caused structural changes during Li + intercalation-deintercalation influencing the cycle life. 10 Recent reports on spin-coated V 2 O 5 presented an increase of an order of magnitude of Li + intercalation capacity and the diffusion coefficient in the non-stoichiometric films contrary to the crystalline ones.…”

Section: Introductionmentioning

confidence: 99%

Electrochemical properties of vanadium oxide coatings grown by hydrothermal synthesis on FTO substrates

et al. 2014

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Vanadium oxide coatings were hydrothermally grown on fluorine doped tin dioxide glass substrates at 95 1C and further annealed at 100 and 300 1C. The coatings were characterized by X-ray diffraction, Raman spectroscopy, atomic force microscopy, UV-vis transmittance and cyclic voltammetry. Crystalline vanadium(V) oxide with the highest surface area ratio was observed for thermal treatment at 300 1C. In addition, the same sample presented the highest intercalation charge and enhanced durability compared with the others. The importance of achieving single-phase crystalline oxide for the improvement of the coatings performance was highlighted.

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Hydrothermal synthesis of vanadium pentoxide nanostructures and their morphology control

Cited by 33 publications

References 18 publications

Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB

Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB

Hydrothermally Prepared Vanadium Oxide Nanostructures for Photocatalytic Application

Electrochemical properties of vanadium oxide coatings grown by hydrothermal synthesis on FTO substrates

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Hydrothermal synthesis of vanadium pentoxide nanostructures and their morphology control

Cited by 33 publications

References 18 publications

Synthesis and Optimization of Visible Light Active BiVO4Photocatalysts for the Degradation of RhB

Synthesis and Optimization of Visible Light Active BiVO4Photocatalysts for the Degradation of RhB

Hydrothermally Prepared Vanadium Oxide Nanostructures for Photocatalytic Application

Electrochemical properties of vanadium oxide coatings grown by hydrothermal synthesis on FTO substrates

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Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB

Synthesis and Optimization of Visible Light Active BiVO₄Photocatalysts for the Degradation of RhB