Production of propyl 4-hydroxybenzoate via selective hydrogenolysis of lignin catalyzed by Ni/MFI-ns

Selective conversion of lignin macromolecules into aromatic monomers is of great significance but remains a major challenge. Here, we present metallic Ni supported on hierarchical multilamellar MFI nanosheets (MFI-ns), which demonstrates good efficiency in producing the versatile petrochemical ethyl...

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Published in:Green chemistry : an international journal and green chemistry resource : GC 2024-11
Main Authors: Li, Lixia, Rao, Yinan, Jiang, Menghao, Long, Jinxing
Format: Article
Language:English
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Summary:Selective conversion of lignin macromolecules into aromatic monomers is of great significance but remains a major challenge. Here, we present metallic Ni supported on hierarchical multilamellar MFI nanosheets (MFI-ns), which demonstrates good efficiency in producing the versatile petrochemical ethyl 4-hydroxyhydrocinnamate (H-E) via selective cleavage of the ester linkages in lignin. With Ni 20 /MFI-ns, an excellent H-E yield of 12.1 wt% (62.1% selectivity in the volatile products) is obtained, representing 58.7% of the theoretical yield. The synergistic interplay between enhanced mass diffusion of lignin macromolecules, NiO on the external surface of MFI-ns, Ni 0 species and moderate Brønsted acidic sites predominantly facilitates the coupling reactions involving ester bond cleavage between p CA units and other lignin structures, esterification with ethanol, and hydrogenation of CC bonds on the side chain. In summary, this work provides a novel concept for production of value-added petrochemicals via a sustainable route by the rational design of a catalyst.
ISSN:1463-9262
1463-9270
DOI:10.1039/D4GC05260A