Effect of cation insertion on the stability of gliding arc plasma-precipitated mesoporous MnO2 dye bleaching catalysts
α-MnO 2 and γ-MnO 2 polymorphs were, respectively, obtained from the plasma precipitation of KMnO 4 and Mn(CH 3 COO) 3 ⋅2H 2 O precursors. The obtained powders were calcined at 150 °C, 210 °C and 400 °C, and characterized by X-ray diffraction, Raman spectroscopy, Fourier transform infrared spectrosc...
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| Published in: | Journal of materials research Vol. 38; no. 17; pp. 4144 - 4156 |
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| Main Authors: | , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Springer International Publishing
14.09.2023
Springer Nature B.V |
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| ISSN: | 0884-2914, 2044-5326 |
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| Abstract | α-MnO
2
and γ-MnO
2
polymorphs were, respectively, obtained from the plasma precipitation of KMnO
4
and Mn(CH
3
COO)
3
⋅2H
2
O precursors. The obtained powders were calcined at 150 °C, 210 °C and 400 °C, and characterized by X-ray diffraction, Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), Thermogravimetric analysis (TGA), X-ray photoelectron spectroscopy (XPS), nitrogen physisorption and Scanning electron microscopy (SEM). As a result, the calcination does not significantly affect textural properties and crystalline structure of the α-MnO
2
, while γ-MnO
2
is transformed into β-MnO
2
for temperatures above 400 °C. The thermal stability α-MnO
2
is due to the K
+
ions insertion in its 4.6 Å × 4.6 Å tunnels and corroborated the catalytic performance of 100, 98, 98 and 97% compared to 71, 54, 52 and 48% for γ-MnO
2
after four successive reuse cycles on Tartrazine Yellow dye. The insertion of cationic species (K
+
, Na
+
, Mg
2+
) into the structure of MnO
2
reinforces its crystalline structure and promotes the formation of powerful oxidizing species through oxygen vacant sites.
Graphical Abstract |
|---|---|
| AbstractList | α-MnO
2
and γ-MnO
2
polymorphs were, respectively, obtained from the plasma precipitation of KMnO
4
and Mn(CH
3
COO)
3
⋅2H
2
O precursors. The obtained powders were calcined at 150 °C, 210 °C and 400 °C, and characterized by X-ray diffraction, Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), Thermogravimetric analysis (TGA), X-ray photoelectron spectroscopy (XPS), nitrogen physisorption and Scanning electron microscopy (SEM). As a result, the calcination does not significantly affect textural properties and crystalline structure of the α-MnO
2
, while γ-MnO
2
is transformed into β-MnO
2
for temperatures above 400 °C. The thermal stability α-MnO
2
is due to the K
+
ions insertion in its 4.6 Å × 4.6 Å tunnels and corroborated the catalytic performance of 100, 98, 98 and 97% compared to 71, 54, 52 and 48% for γ-MnO
2
after four successive reuse cycles on Tartrazine Yellow dye. The insertion of cationic species (K
+
, Na
+
, Mg
2+
) into the structure of MnO
2
reinforces its crystalline structure and promotes the formation of powerful oxidizing species through oxygen vacant sites.
Graphical Abstract α-MnO2 and γ-MnO2 polymorphs were, respectively, obtained from the plasma precipitation of KMnO4 and Mn(CH3COO)3⋅2H2O precursors. The obtained powders were calcined at 150 °C, 210 °C and 400 °C, and characterized by X-ray diffraction, Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), Thermogravimetric analysis (TGA), X-ray photoelectron spectroscopy (XPS), nitrogen physisorption and Scanning electron microscopy (SEM). As a result, the calcination does not significantly affect textural properties and crystalline structure of the α-MnO2, while γ-MnO2 is transformed into β-MnO2 for temperatures above 400 °C. The thermal stability α-MnO2 is due to the K+ ions insertion in its 4.6 Å × 4.6 Å tunnels and corroborated the catalytic performance of 100, 98, 98 and 97% compared to 71, 54, 52 and 48% for γ-MnO2 after four successive reuse cycles on Tartrazine Yellow dye. The insertion of cationic species (K+, Na+, Mg2+) into the structure of MnO2 reinforces its crystalline structure and promotes the formation of powerful oxidizing species through oxygen vacant sites. |
| Author | Boyom-Tatchemo, Franck W. Nzali, Serge Gaigneaux, Eric M. Acayanka, Elie Laminsi, Samuel Kamgang-Youbi, Georges Devred, François |
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| Snippet | α-MnO
2
and γ-MnO
2
polymorphs were, respectively, obtained from the plasma precipitation of KMnO
4
and Mn(CH
3
COO)
3
⋅2H
2
O precursors. The obtained powders... α-MnO2 and γ-MnO2 polymorphs were, respectively, obtained from the plasma precipitation of KMnO4 and Mn(CH3COO)3⋅2H2O precursors. The obtained powders were... |
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| SubjectTerms | Applied and Technical Physics Biomaterials Bleaching Catalysis Cations Chemistry and Materials Science Crystal structure Crystallinity Decomposition Dyes Fourier transforms Infrared analysis Inorganic Chemistry Insertion Manganese dioxide Materials Engineering Materials Science Metal oxides Nanomaterials Nanotechnology Oxidation Photoelectrons Plasma Potassium permanganate Raman spectroscopy Roasting Temperature Thermal stability Thermogravimetric analysis Vibration X ray photoelectron spectroscopy |
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| Title | Effect of cation insertion on the stability of gliding arc plasma-precipitated mesoporous MnO2 dye bleaching catalysts |
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