Photocatalytic Generation of Hydrogen in Degrading Soluble Organic Pollutants with Metal-Ceramic Composites

Phase composition and morphological specific features of metal-ceramic composites synthesized by the method of self-propagating synthesis from aluminum ferrosilicon with addition of modifiers (shungite, metallic titanium) was studied. The optical properties of the composites were examined, and the e...

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Bibliographic Details
Published in:Russian journal of applied chemistry 2019, Vol.92 (1), p.159-165
Main Authors: Skvortsova, L. N., Batalova, V. N., Bolgaru, K. A., Artyukh, I. A., Reger, A. A.
Format: Article
Language:English
Subjects:
Absorption spectra
Aluminum
Carboxylic acids
Ceramics
Cermets
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Energy gap
Ferrosilicon
Hydrazines
Hydrogen
Hydrogen evolution
Hydrogen peroxide
Hydrogen production
Hydrogen storage
Industrial Chemistry/Chemical Engineering
Iron constituents
Optical properties
Phase composition
Photocatalysis
Pollutants
Reagents
Self-propagating synthesis
Specific Technological Processes
Titanium
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Summary:Phase composition and morphological specific features of metal-ceramic composites synthesized by the method of self-propagating synthesis from aluminum ferrosilicon with addition of modifiers (shungite, metallic titanium) was studied. The optical properties of the composites were examined, and the energy gap widths of the semiconductors constituents of the ceramic matrix were found from electronic absorption spectra. The efficiency of the processes of hydrogen generation from solutions of “sacrificial” reagents (carboxylic acids, hydrazine, and saccharose) was evaluated in relation to their concentration and H 2 O 2 concentration, addition of a dye, and phase composition of the composites. It was shown that hydrogen is generated from the sacrificial reagents as a result of the combination of heterogeneous and homogeneous kinds of photocatalysis. The highest hydrogen evolution output (∼830 µmol g −1 h −1 ) was obtained from solutions of oxalic and malic acids.
ISSN:1070-4272
1608-3296
DOI:10.1134/S10704272190100221