Issue 45, 2021

Solar-accelerated chemoselective hydrogenation of 4-nitrostyrene to 4-vinylaniline with carbon dot-induced Cu over Cu3P in the absence of any sacrificial reagent

Abstract

We present an efficient method toward rational design and fabrication of multicomponent photocatalysts using carbon dots (CDs) for solar-driven chemical reactions with super selectivity and activity. CDs act not only as a reductant to enable metallic Cu formation but also as a hole trapping agent to hinder side reactions. By simple pyrolysis of the mixture of the Cu source, CDs and NaH2PO2, the Cu3P–CDs–Cu nanocomposite is produced and shows a good sunlight harvesting property. Under one sun irradiation, Cu3P–CDs–Cu can catalyze ammonia borane (AB) for selective hydrogenation of 4-nitrostyrene (4-NS) to 4-aminostyrene (4-AS) in an aqueous solvent at room temperature, achieving 100% selectivity and beyond 99% conversion rate within a few short minutes of reaction time. The superior performance of Cu3P–CDs–Cu is attributed to the formation of the all-solid-state Z-scheme photocatalytic system, eliminating the high-energy holes—active species attacking C[double bond, length as m-dash]C groups in 4-NS—from Cu3P. Meanwhile, metallic Cu promotes the migration and transport of excited electrons from the interior to the surface and interface, accelerating the activation of AB for selective reduction of 4-NS to 4-AS.

Graphical abstract: Solar-accelerated chemoselective hydrogenation of 4-nitrostyrene to 4-vinylaniline with carbon dot-induced Cu over Cu3P in the absence of any sacrificial reagent

Supplementary files

Article information

Article type
Communication
Submitted
08 Sep 2021
Accepted
20 Oct 2021
First published
20 Oct 2021

J. Mater. Chem. A, 2021,9, 25374-25380

Solar-accelerated chemoselective hydrogenation of 4-nitrostyrene to 4-vinylaniline with carbon dot-induced Cu over Cu3P in the absence of any sacrificial reagent

Y. Ren, C. Hao, Q. Chang, N. Li, J. Yang and S. Hu, J. Mater. Chem. A, 2021, 9, 25374 DOI: 10.1039/D1TA07702C

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