Microwave-Assisted Synthesis of Titanosilicates Using a Precursor Produced from Titanium Ore Concentrate

Microwave-Assisted Synthesis of Titanosilicates Using a Precursor Produced from Titanium Ore Concentrate

Titanosilicates comprise a broad class of materials with promising technological applications. The typical obstacle that restricts their industrial applicability is the high manufacturing cost due to the use of specific organotitanium precursors. We herein report a new approach to the synthesis of t...

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Veröffentlicht in:ChemEngineering 2023-12, Vol.7 (6), p.118
Hauptverfasser: Kalashnikova, Galina O., Gryaznova, Darya V., Baranchikov, Alexander E., Britvin, Sergey N., Yakovenchuk, Victor N., Samburov, Gleb O., Veselova, Varvara O., Pulyalina, Aleksandra Y., Pakhomovsky, Yakov A., Bazai, Ayya V., Glazunova, Margarita Y., Shirokaya, Anna A., Kozerozhets, Irina V., Nikolaev, Anatoly I., Ivanov, Vladimir K.
Format: Artikel
Sprache:eng
Schlagworte:
Apatite
cesium
Chemical engineering
Chemical reactions
Chemistry
Coal-fired power plants
Concentrates (ores)
eco-friendly reagent
functional material
Industrial plant emissions
Inorganic chemistry
Laboratories
Leather & leather products
microwave-assisted synthesis
Microwaves
Morphology
Natural resources
Nepheline
Precursors
Production costs
Raw materials
Reagents
Russia
Salt
Scientific imaging
sitinakite
sorbent
Titanium
Titanium ores
Zeolites
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Beschreibung
Zusammenfassung:Titanosilicates comprise a broad class of materials with promising technological applications. The typical obstacle that restricts their industrial applicability is the high manufacturing cost due to the use of specific organotitanium precursors. We herein report a new approach to the synthesis of titanosilicates using an inexpensive inorganic precursor, ammonium titanyl sulfate (ATS or STA), (NH4)2TiO(SO4)2∙H2O. The latter is an intermediate in the processing of titanium-bearing concentrates produced from apatite-nepheline ores. In this paper, the new synthetic approach is exemplified by the microwave-assisted synthesis of IONSIVE-911, one of the most effective Cs-ion scavengers. The method can be modified to synthesize various titanosilicate compounds.
ISSN:2305-7084
2305-7084
DOI:10.3390/chemengineering7060118