Efficient co-upcycling of glycerol and CO 2 into valuable products enabled by a bifunctional Ru-complex catalyst

Efficient co-upcycling of glycerol and CO 2 into valuable products enabled by a bifunctional Ru-complex catalyst

Glycerol and CO are largely produced as by-products in modern industry. Herein, three Ru complexes bearing air- and water-stable NHC-nitrogen-nitrogen ligands are designed as bifunctional catalysts to upcycle glycerol and CO simultaneously. Among them, Ru complex 2 featuring an N-H structure shows t...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2024-10, Vol.60 (84), p.12221-12224
Hauptverfasser: Cui, Tianhua, Gong, Huihua, Ji, Li, Mao, Jiawei, Xue, Weichao, Zheng, Xueli, Fu, Haiyan, Chen, Hua, Li, Ruixiang, Xu, Jiaqi
Format: Artikel
Sprache:eng
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Zusammenfassung:Glycerol and CO are largely produced as by-products in modern industry. Herein, three Ru complexes bearing air- and water-stable NHC-nitrogen-nitrogen ligands are designed as bifunctional catalysts to upcycle glycerol and CO simultaneously. Among them, Ru complex 2 featuring an N-H structure shows the highest efficiency with TONs up to 300 000 and 387 000 for formate and lactate, respectively. C labelling experiments clearly manifest that formate is primarily derived from CO . Furthermore, FTIR spectra suggest that glyceraldehyde from glycerol might serve as a key intermediate to form lactate, while DFT calculations indicate that Ru complex 2 possesses the lowest reaction barriers and can form the RuN intermediate, contributing to its higher activity.
ISSN:1359-7345
1364-548X
DOI:10.1039/D4CC02436B