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The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds

The Baeyer-Villiger Oxidation (BVO) of ketones and aldehydes produce lactones and formates, while aerobic carboxylation of aldehydes manufactures carboxylic acids, both having high added value. This work prepared a series of Al-containing silicates modified with organic ligands and SnO(2) nanopartic...

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Autores principales: Ma, Jinyi, Wu, Yong, Pan, Qin, Wang, Xiangdong, Li, Xiaoyong, Li, Qiujuan, Xu, Xiaoshuai, Yao, Yuan, Sun, Yang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9919301/
https://www.ncbi.nlm.nih.gov/pubmed/36770394
http://dx.doi.org/10.3390/nano13030433
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author Ma, Jinyi
Wu, Yong
Pan, Qin
Wang, Xiangdong
Li, Xiaoyong
Li, Qiujuan
Xu, Xiaoshuai
Yao, Yuan
Sun, Yang
author_facet Ma, Jinyi
Wu, Yong
Pan, Qin
Wang, Xiangdong
Li, Xiaoyong
Li, Qiujuan
Xu, Xiaoshuai
Yao, Yuan
Sun, Yang
author_sort Ma, Jinyi
collection PubMed
description The Baeyer-Villiger Oxidation (BVO) of ketones and aldehydes produce lactones and formates, while aerobic carboxylation of aldehydes manufactures carboxylic acids, both having high added value. This work prepared a series of Al-containing silicates modified with organic ligands and SnO(2) nanoparticles, which were then employed as catalyst in BVO and carboxylation. Characterizations revealed the morphology of the synthesized catalyst was changed from micron-sized thin sheets to smaller blocks, and then to uniform nanoparticles (size of 50 nm) having the doped SnO(2) nanoparticles with a size of 29 nm. All catalysts showed high BET surface areas featuring silt-like mesopores. In determining the priority of BVO and carboxylation, an influence evaluation of the parameters showed the order to be substrate > oxidant > solvent > catalyst. Cyclic aliphatic ketones were suitable for BVO, but linear aliphatic and aromatic aldehydes for carboxylation. Coordination of (S)-binaphthol or doping of Sn into catalyst showed little influence on BVO under m-CPBA, but the Sn-doped catalyst largely increased BVO under (NH(4))(2)S(2)O(8) and H(2)O(2). Calculations revealed that the catalyst containing both Al and Sn could give BVO intermediates lower energies than the Sn-beta zeolite model. The present system exhibited merits including wider substrate scope, innocuous catalytic metal, greener oxidant, as well as lower catalyst cost.
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spelling pubmed-99193012023-02-12 The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds Ma, Jinyi Wu, Yong Pan, Qin Wang, Xiangdong Li, Xiaoyong Li, Qiujuan Xu, Xiaoshuai Yao, Yuan Sun, Yang Nanomaterials (Basel) Article The Baeyer-Villiger Oxidation (BVO) of ketones and aldehydes produce lactones and formates, while aerobic carboxylation of aldehydes manufactures carboxylic acids, both having high added value. This work prepared a series of Al-containing silicates modified with organic ligands and SnO(2) nanoparticles, which were then employed as catalyst in BVO and carboxylation. Characterizations revealed the morphology of the synthesized catalyst was changed from micron-sized thin sheets to smaller blocks, and then to uniform nanoparticles (size of 50 nm) having the doped SnO(2) nanoparticles with a size of 29 nm. All catalysts showed high BET surface areas featuring silt-like mesopores. In determining the priority of BVO and carboxylation, an influence evaluation of the parameters showed the order to be substrate > oxidant > solvent > catalyst. Cyclic aliphatic ketones were suitable for BVO, but linear aliphatic and aromatic aldehydes for carboxylation. Coordination of (S)-binaphthol or doping of Sn into catalyst showed little influence on BVO under m-CPBA, but the Sn-doped catalyst largely increased BVO under (NH(4))(2)S(2)O(8) and H(2)O(2). Calculations revealed that the catalyst containing both Al and Sn could give BVO intermediates lower energies than the Sn-beta zeolite model. The present system exhibited merits including wider substrate scope, innocuous catalytic metal, greener oxidant, as well as lower catalyst cost. MDPI 2023-01-20 /pmc/articles/PMC9919301/ /pubmed/36770394 http://dx.doi.org/10.3390/nano13030433 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
Ma, Jinyi
Wu, Yong
Pan, Qin
Wang, Xiangdong
Li, Xiaoyong
Li, Qiujuan
Xu, Xiaoshuai
Yao, Yuan
Sun, Yang
The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title_full The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title_fullStr The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title_full_unstemmed The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title_short The Al-Containing Silicates Modified with Organic Ligands and SnO(2) Nanoparticles for Catalytic Baeyer-Villiger Oxidation and Aerobic Carboxylation of Carbonyl Compounds
title_sort al-containing silicates modified with organic ligands and sno(2) nanoparticles for catalytic baeyer-villiger oxidation and aerobic carboxylation of carbonyl compounds
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9919301/
https://www.ncbi.nlm.nih.gov/pubmed/36770394
http://dx.doi.org/10.3390/nano13030433
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