Design and catalytic applications of 1D tubular nanostructures: Improving efficiency in glycerol conversion

[Display omitted] •1D silica-based tubular structures were successfully synthesized.•Easy synthesis procedure allowing Sn insertion and high surface area solids.•The solids were efficiently used for glycerol valorization reactions.•The novel structures were highly actives, stable and reusable.•The e...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2019-06, Vol.247, p.182-190
Main Authors: Bivona, Lucia A., Vivian, Alvise, Fusaro, Luca, Fiorilli, Sonia, Aprile, Carmela
Format: Article
Language:English
Subjects:
Active control
Catalysts
Catalytic converters
Conversion
Dihydroxyacetone
Environmental impact
Ethyl lactate
Genetic transformation
Glycerol
Glycerol valorization
Lactates
Lactic acid
Leaching
Morphology
Nanotechnology
Nanotubes
NMR
Nuclear magnetic resonance
Optimization
Silica
Silicon dioxide
Sol-gel processes
Solketal
Sustainable development
Synthesis
Tin
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Summary:[Display omitted] •1D silica-based tubular structures were successfully synthesized.•Easy synthesis procedure allowing Sn insertion and high surface area solids.•The solids were efficiently used for glycerol valorization reactions.•The novel structures were highly actives, stable and reusable.•The exceptional performances allow reducing the reaction temperature. The design of novel and efficient heterogeneous catalysts represents one of the main challenges in the development of sustainable processes. A straightforward one-pot sol-gel approach for the controlled preparation of highly active 1D nanotubes is herein presented. The optimization of the synthesis parameters allowed obtaining materials with tubular structure and very high surface area even in the absence of additional hydrothermal treatments hence further reducing the environmental impact of the synthesis approach. The isomorphic substitution of Sn within the silica framework was assessed via 119Sn solid state NMR under static conditions. Sn-silica nanotubes were efficiently used to catalyze both the transformation of dihydroxyacetone into ethyl lactate and the conversion of glycerol into solketal, where outstanding turnover frequencies were obtained under solvent-free conditions. The catalytic performance of these materials is ascribed to the enhanced accessibility of their active sites given by their tubular morphology and to the suitable combination of acid sites. Moreover, no-leaching of active sites was evidenced and the best solid preserved its activity in multiple catalytic cycles. Characterization after the reuses allows supporting further the stability of tin-nanotubes under the selected reactions conditions.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2019.01.085