Highly Efficient Lignin Depolymerization via Effective Inhibition of Condensation during Polyoxometalate-Mediated Oxidation

Depolymerization of lignin to low-molecular-weight products plays a vital role in upgrading of lignin into high-value chemicals. One of the problems of lignin depolymerization is the recondensation of the lignin fragments through positive α carbon (Cα +) coupled with electron-rich lignin aromatic ri...

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Bibliographic Details
Published in:Energy & fuels 2019-07, Vol.33 (7), p.6483-6490
Main Authors: Yang, Weisheng, Du, Xu, Liu, Wei, Tricker, Andrew W, Dai, Hongqi, Deng, Yulin
Format: Article
Language:English
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Summary:Depolymerization of lignin to low-molecular-weight products plays a vital role in upgrading of lignin into high-value chemicals. One of the problems of lignin depolymerization is the recondensation of the lignin fragments through positive α carbon (Cα +) coupled with electron-rich lignin aromatic rings during the depolymerization process. Many pretreatment methods have been proposed to efficiently inhibit the recondensation by blocking active Cα–OH groups, but barely a few oxidative methods were reported for the following lignin depolymerization. Herein, we reported an effective lignin depolymerization process in which the active Cα–OH groups were first converted to stable CαO by TEMPO (2,2,6,6-tetramethyl-1-piperidinyloxy) and then depolymerized by oxidation of polyoxometalate (POM) under relatively mild conditions (150 °C, 10 bar O2). The POM is an intermediate oxidation agent that was completely regenerated during the lignin depolymerization process. Under 150 °C and 10 bar O2 for 6 h, 74.5 wt % lignin was converted to DCM-extractable low-molecular-weight compounds (average molecular weight of 363 Da), yielding 19.4 wt % aromatic monomers (based on total lignin mass). The novel oxidative depolymerization method reported here is more effective than common oxidative depolymerization methods reported in the literature.
ISSN:0887-0624
1520-5029
DOI:10.1021/acs.energyfuels.9b01175