One-pot synthesis of lactic acid from glycerol over a Pt/L-Nb2O5 catalyst under base-free conditions

Highly efficient and selective transformations of glycerol to valuable chemicals are currently an attractive and challenging target reaction in biorefineries. A bifunctional catalyst consisting of Pt nanoparticles (Pt NPs) and layered-Nb2O5 (L-Nb2O5) efficiently catalyzed the one-pot conversion of g...

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Published inFuel processing technology Vol. 197; p. 106202
Main Authors Feng, Shixiang, Takahashi, Kanori, Miura, Hiroki, Shishido, Tetsuya
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.01.2020
Elsevier Science Ltd
Subjects
Acids
Additives
Aldehydes
Catalysts
Dehydration
Dehydrogenation
Dihydroxyacetone
Glycerol
Lactic acid
Layered-Nb2O5
Lewis acid
Nanoparticles
Niobium oxides
One-pot synthesis
Organic chemistry
Lewis acid
Glycerol
One-pot synthesis
Lactic acid
Layered-Nb2O5
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Summary:Highly efficient and selective transformations of glycerol to valuable chemicals are currently an attractive and challenging target reaction in biorefineries. A bifunctional catalyst consisting of Pt nanoparticles (Pt NPs) and layered-Nb2O5 (L-Nb2O5) efficiently catalyzed the one-pot conversion of glycerol to lactic acid (LA) in water under an oxygen atmosphere without the use of any additives such as strong bases. Mechanistic studies revealed that glycerol was initially oxidized to dihydroxyacetone and glyceraldehyde through dehydrogenation on Pt NPs. After the dehydration step catalyzed by acid sites on L-Nb2O5, the dehydrated intermediate pyruvic aldehyde was converted exclusively on Lewis acid sites, rather than a Brønsted acid, to produce LA through the Cannizzaro reaction. These experimental results represent the successful development of a binary catalyst consisting of metal NPs and solid acid, Pt/L-Nb2O5, for one-pot synthesis of LA from glycerol under additive-free conditions. [Display omitted] •Glycerol conversion to lactic acid by Pt-based catalysts on supports was examined.•Layered-structure-type Nb2O5 was synthesized and applied as a support.•Pt/L-Nb2O5 possessed the highest acid sites and strongest Lewis acid strength.•The Lewis acid on Pt/L-Nb2O5 catalyzed conversion of pyruvic aldehyde to lactic acid.•Pyruvic aldehyde to lactic acid conversion via the Cannizzaro reaction.
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2019.106202