Issue 9, 2019

Cascade aldol condensation of an aldehyde via the aerobic oxidation of ethanol over an Au/NiO composite

Abstract

Synthesis of liquid biofuels (C11–C13) from cellulosic ethanol is regarded as a promising and versatile protocol. In this study, oxide-supported nanogold catalysts exhibit good catalytic performance in ethanol conversion with cinnamaldehyde and finally give rise to the C11–C13 hydrocarbon. High selectivity (70%) for C11–C13 hydrocarbons is achieved over Au/NiO via a one-pot cascade reaction, viz. cross-aldol condensations in the presence of oxygen and base (K2CO3) and then full hydrodeoxygenation with hydrogen gas. EtOH-TPD and TGA analyses show that the ethanol is activated to acetaldehyde (CH3CHO*) over the surface oxygen vacancies of the NiO support. The CH3CHO* then reacts with cinnamaldehyde at the interfacial perimeter of the Au/NiO composite during the cascade reactions, as evidenced by comparison of the catalytic performance with that over another oxide-supported Au NP, chemo-adsorption investigations, and in situ infrared spectroscopy investigations. This work may provide new guidelines for designing efficient catalysts to convert bioethanol into biofuels with high energy density.

Graphical abstract: Cascade aldol condensation of an aldehyde via the aerobic oxidation of ethanol over an Au/NiO composite

Article information

Article type
Paper
Submitted
01 Jul 2019
Accepted
29 Jul 2019
First published
29 Jul 2019
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2019,1, 3654-3659

Cascade aldol condensation of an aldehyde via the aerobic oxidation of ethanol over an Au/NiO composite

Y. Shi, S. Tian, Q. Shi, Y. Zhang, A. Waheed, Y. Cao and G. Li, Nanoscale Adv., 2019, 1, 3654 DOI: 10.1039/C9NA00412B

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