Hafnium-doped silica nanotubes for the upgrading of glycerol into solketal: Enhanced performances and in-depth structure-activity correlation

Loraine Soumoy; Chloe Celis; Damien P. Debecker; Marco Armandi; Sonia Fiorilli; Carmela APRILE

doi:10.1016/j.jcat.2022.04.032

Hafnium-doped silica nanotubes for the upgrading of glycerol into solketal: Enhanced performances and in-depth structure-activity correlation

Loraine Soumoy, Chloe Celis, Damien P. Debecker, Marco Armandi, Sonia Fiorilli, Carmela APRILE

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

Résumé

An unprecedented type of Hf-doped silica nanotubes was synthesized using a straightforward one-pot sol–gel procedure. The well-defined nanotubes with a diameter of 14–20 nm exhibited high specific surface area and a widely open texture. The method – involving a key pH adjustment step – allowed a quantitative insertion of hafnium in the materials (Si/Hf = 74) and favored the insertion of Hf as dispersed species. Depending on the synthesis parameters, the chemical environment around Hf was modified, as evidenced by XPS, NH3-TPD and NH3-IR. Hf-doped silica nanotubes showed excellent activity in the conversion of glycerol to solketal, a reaction of high relevance in the context of biorefineries. Importantly, the turnover frequency and the acidity were unambiguously correlated with the insertion of Hf in the silica matrix. The best catalyst was proven to be stable and recyclable, and this sustainable reaction was also amenable to further catalytic enhancement upon optimized reaction conditions.

langue originale	Anglais
Pages (de - à)	41-53
Nombre de pages	13
journal	Journal of Catalysis
Volume	411
Date de mise en ligne précoce	14 mai 2022
Les DOIs	https://doi.org/10.1016/j.jcat.2022.04.032
Etat de la publication	Publié - juil. 2022

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10.1016/j.jcat.2022.04.032

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@article{aefcd736d4964c4baed1b5e589d496d8,

title = "Hafnium-doped silica nanotubes for the upgrading of glycerol into solketal: Enhanced performances and in-depth structure-activity correlation",

abstract = "An unprecedented type of Hf-doped silica nanotubes was synthesized using a straightforward one-pot sol–gel procedure. The well-defined nanotubes with a diameter of 14–20 nm exhibited high specific surface area and a widely open texture. The method – involving a key pH adjustment step – allowed a quantitative insertion of hafnium in the materials (Si/Hf = 74) and favored the insertion of Hf as dispersed species. Depending on the synthesis parameters, the chemical environment around Hf was modified, as evidenced by XPS, NH3-TPD and NH3-IR. Hf-doped silica nanotubes showed excellent activity in the conversion of glycerol to solketal, a reaction of high relevance in the context of biorefineries. Importantly, the turnover frequency and the acidity were unambiguously correlated with the insertion of Hf in the silica matrix. The best catalyst was proven to be stable and recyclable, and this sustainable reaction was also amenable to further catalytic enhancement upon optimized reaction conditions.",

keywords = "1D tubular structures, Glycerol valorisation, Hf-silicates, Low E-factor, Solketal production",

author = "Loraine Soumoy and Chloe Celis and Debecker, {Damien P.} and Marco Armandi and Sonia Fiorilli and Carmela APRILE",

note = "Funding Information: Authors acknowledge the FNRS for the financial support including via the research project grant G 4/1/6-GEQ/CDB. L. Soumoy thanks the FNRS for the financial support in the context of her FRIA PhD grant. Damien Debecker thanks the Francqui Foundation for the “Francqui Research Professor” chair. F. Devred is thanked for the technical and logistical support. This research used resources of PC2 (Plateforme Technologique Physico-Chemical Characterization), MORPH-IM (Morphology & Imaging) and SIAM (Synthesis, Irradiation & Analysis of Materials) technology platforms located at the University of Namur. Funding Information: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Carmela Aprile reports financial support was provided by Fund for Scientific Research. Loraine Soumoy reports financial support was provided by Fund for Scientific Research. Publisher Copyright: {\textcopyright} 2022",

year = "2022",

month = jul,

doi = "10.1016/j.jcat.2022.04.032",

language = "English",

volume = "411",

pages = "41--53",

journal = "Journal of Catalysis",

issn = "0021-9517",

publisher = "Academic Press Inc.",

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T2 - Enhanced performances and in-depth structure-activity correlation

AU - Soumoy, Loraine

AU - Celis, Chloe

AU - Debecker, Damien P.

AU - Armandi, Marco

AU - Fiorilli, Sonia

AU - APRILE, Carmela

N1 - Funding Information: Authors acknowledge the FNRS for the financial support including via the research project grant G 4/1/6-GEQ/CDB. L. Soumoy thanks the FNRS for the financial support in the context of her FRIA PhD grant. Damien Debecker thanks the Francqui Foundation for the “Francqui Research Professor” chair. F. Devred is thanked for the technical and logistical support. This research used resources of PC2 (Plateforme Technologique Physico-Chemical Characterization), MORPH-IM (Morphology & Imaging) and SIAM (Synthesis, Irradiation & Analysis of Materials) technology platforms located at the University of Namur. Funding Information: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Carmela Aprile reports financial support was provided by Fund for Scientific Research. Loraine Soumoy reports financial support was provided by Fund for Scientific Research. Publisher Copyright: © 2022

PY - 2022/7

Y1 - 2022/7

N2 - An unprecedented type of Hf-doped silica nanotubes was synthesized using a straightforward one-pot sol–gel procedure. The well-defined nanotubes with a diameter of 14–20 nm exhibited high specific surface area and a widely open texture. The method – involving a key pH adjustment step – allowed a quantitative insertion of hafnium in the materials (Si/Hf = 74) and favored the insertion of Hf as dispersed species. Depending on the synthesis parameters, the chemical environment around Hf was modified, as evidenced by XPS, NH3-TPD and NH3-IR. Hf-doped silica nanotubes showed excellent activity in the conversion of glycerol to solketal, a reaction of high relevance in the context of biorefineries. Importantly, the turnover frequency and the acidity were unambiguously correlated with the insertion of Hf in the silica matrix. The best catalyst was proven to be stable and recyclable, and this sustainable reaction was also amenable to further catalytic enhancement upon optimized reaction conditions.

AB - An unprecedented type of Hf-doped silica nanotubes was synthesized using a straightforward one-pot sol–gel procedure. The well-defined nanotubes with a diameter of 14–20 nm exhibited high specific surface area and a widely open texture. The method – involving a key pH adjustment step – allowed a quantitative insertion of hafnium in the materials (Si/Hf = 74) and favored the insertion of Hf as dispersed species. Depending on the synthesis parameters, the chemical environment around Hf was modified, as evidenced by XPS, NH3-TPD and NH3-IR. Hf-doped silica nanotubes showed excellent activity in the conversion of glycerol to solketal, a reaction of high relevance in the context of biorefineries. Importantly, the turnover frequency and the acidity were unambiguously correlated with the insertion of Hf in the silica matrix. The best catalyst was proven to be stable and recyclable, and this sustainable reaction was also amenable to further catalytic enhancement upon optimized reaction conditions.

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KW - Low E-factor

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DO - 10.1016/j.jcat.2022.04.032

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VL - 411

SP - 41

EP - 53

JO - Journal of Catalysis

JF - Journal of Catalysis

ER -

Hafnium-doped silica nanotubes for the upgrading of glycerol into solketal: Enhanced performances and in-depth structure-activity correlation

Résumé

Accès au document

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Morphologie - Imagerie

Physico-chimie et caractérisation (PC2)

Synthèse, Irradiation et Analyse de Matériaux (SIAM) (2016 - ...)

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