Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis

It is shown that the potassium polytitanate powder (PPT) synthesized at 500 °C via the treatment of powdered TiO(2) (rutile) in molten mixtures of KOH and KNO(3) is a cheap and effective catalyst of H(2)O(2) chemical decomposition in aqueous solutions. At the same time, the PPT catalytic activity st...

Descripción completa

Detalles Bibliográficos
Autores principales: Gorokhovsky, Alexander, Morozova, Natalia, Yurkov, Gleb, Grapenko, Olga, Kozinkin, Alexander, Kozakov, Alexei, Nikolskiy, Anatoliy, Tretyachenko, Elena, Semenov, Andrey, Solodilov, Vitaliy
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10343628/
https://www.ncbi.nlm.nih.gov/pubmed/37446607
http://dx.doi.org/10.3390/molecules28134945
_version_ 1785072782216790016
author Gorokhovsky, Alexander
Morozova, Natalia
Yurkov, Gleb
Grapenko, Olga
Kozinkin, Alexander
Kozakov, Alexei
Nikolskiy, Anatoliy
Tretyachenko, Elena
Semenov, Andrey
Solodilov, Vitaliy
author_facet Gorokhovsky, Alexander
Morozova, Natalia
Yurkov, Gleb
Grapenko, Olga
Kozinkin, Alexander
Kozakov, Alexei
Nikolskiy, Anatoliy
Tretyachenko, Elena
Semenov, Andrey
Solodilov, Vitaliy
author_sort Gorokhovsky, Alexander
collection PubMed
description It is shown that the potassium polytitanate powder (PPT) synthesized at 500 °C via the treatment of powdered TiO(2) (rutile) in molten mixtures of KOH and KNO(3) is a cheap and effective catalyst of H(2)O(2) chemical decomposition in aqueous solutions. At the same time, the PPT catalytic activity strongly depends on the [TiO(2)]:[KOH]:[KNO(3)] weight ratio in the mixture used for the synthesis, increasing with [KNO(3)] in the order of PPT (30:30:40) < PPT (30:50:20) < PPT (30:70:0). The obtained results are explained by increased [Ti(3+)] in the PPT structure (XPS data), which is grown in this order from 0 to 4.0 and 21.9 at.%, respectively, due to the reduced oxidation activity of the melt used for PPT synthesis. The mechanism of the autocatalytic process taking place in the PPT-H(2)O(2)-H(2)O system is analyzed. Taking into account the data of FT-IR spectroscopy, it is assumed that the increased catalytic activity of the investigated materials is related to the increased surface concentration of the Ti(4+)-O(H)-Ti(4+) groups, formed from the Ti(3+)-O(H(3)O(+))-Ti(4+) clusters and further transformed into Ti-O-O-H catalytic centers. Some possible applications of the PPT-H(2)O(2)-H(2)O catalytic system, including the oxidation processes of green chemistry and photo-catalysis, are discussed.
format Online
Article
Text
id pubmed-10343628
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-103436282023-07-14 Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis Gorokhovsky, Alexander Morozova, Natalia Yurkov, Gleb Grapenko, Olga Kozinkin, Alexander Kozakov, Alexei Nikolskiy, Anatoliy Tretyachenko, Elena Semenov, Andrey Solodilov, Vitaliy Molecules Article It is shown that the potassium polytitanate powder (PPT) synthesized at 500 °C via the treatment of powdered TiO(2) (rutile) in molten mixtures of KOH and KNO(3) is a cheap and effective catalyst of H(2)O(2) chemical decomposition in aqueous solutions. At the same time, the PPT catalytic activity strongly depends on the [TiO(2)]:[KOH]:[KNO(3)] weight ratio in the mixture used for the synthesis, increasing with [KNO(3)] in the order of PPT (30:30:40) < PPT (30:50:20) < PPT (30:70:0). The obtained results are explained by increased [Ti(3+)] in the PPT structure (XPS data), which is grown in this order from 0 to 4.0 and 21.9 at.%, respectively, due to the reduced oxidation activity of the melt used for PPT synthesis. The mechanism of the autocatalytic process taking place in the PPT-H(2)O(2)-H(2)O system is analyzed. Taking into account the data of FT-IR spectroscopy, it is assumed that the increased catalytic activity of the investigated materials is related to the increased surface concentration of the Ti(4+)-O(H)-Ti(4+) groups, formed from the Ti(3+)-O(H(3)O(+))-Ti(4+) clusters and further transformed into Ti-O-O-H catalytic centers. Some possible applications of the PPT-H(2)O(2)-H(2)O catalytic system, including the oxidation processes of green chemistry and photo-catalysis, are discussed. MDPI 2023-06-23 /pmc/articles/PMC10343628/ /pubmed/37446607 http://dx.doi.org/10.3390/molecules28134945 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gorokhovsky, Alexander
Morozova, Natalia
Yurkov, Gleb
Grapenko, Olga
Kozinkin, Alexander
Kozakov, Alexei
Nikolskiy, Anatoliy
Tretyachenko, Elena
Semenov, Andrey
Solodilov, Vitaliy
Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title_full Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title_fullStr Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title_full_unstemmed Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title_short Catalytic Decomposition of H(2)O(2) in the Aqueous Dispersions of the Potassium Polytitanates Produced in Different Conditions of Molten Salt Synthesis
title_sort catalytic decomposition of h(2)o(2) in the aqueous dispersions of the potassium polytitanates produced in different conditions of molten salt synthesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10343628/
https://www.ncbi.nlm.nih.gov/pubmed/37446607
http://dx.doi.org/10.3390/molecules28134945
work_keys_str_mv AT gorokhovskyalexander catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT morozovanatalia catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT yurkovgleb catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT grapenkoolga catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT kozinkinalexander catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT kozakovalexei catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT nikolskiyanatoliy catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT tretyachenkoelena catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT semenovandrey catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis
AT solodilovvitaliy catalyticdecompositionofh2o2intheaqueousdispersionsofthepotassiumpolytitanatesproducedindifferentconditionsofmoltensaltsynthesis

Ejemplares similares