Issue 12, 2022

Catalytic conversion of high S-lignin to a sustainable tri-epoxide polymer precursor

Abstract

More than 40 million tons of thermosetting plastics are produced annually and 70% of those are epoxy polymers. The synthesis of bio-based epoxide provides a pathway for making renewable thermoset plastics. We describe in this study the use of a genetically modified high-S poplar lignin to produce 4-propyl-2,6-dimethoxyphenol (DMPP), which is converted to the tri-functional compound propylpyrogallol (DMPPO) by a reaction catalysed by N2O5 in the green solvent water. The resulting DMPPO can be converted to a novel tri-epoxide by reaction with epichlorohydrin. Native high-S lignin as well as several organosolv lignins extracted from this poplar biomass were investigated as feedstocks. Notably, direct reductive catalytic fractionation (RCF) of the high-S poplar wood over Pd–Zn/C catalyst with Pd : Zn ratio 1 : 10 at 225 °C under 35 bar H2 in methanol gave the highest yield of biophenol monomers from the lignin present, the major product being DMPP. Under optimized conditions, conversion of DMPP to DMPPO over the Nb2O5 was nearly quantitative (96% yield), and this conversion could be made without extensive prior purification of the DMPP. The Nb2O5 catalyst could be recycled several times before significant deactivation. This sequence of two catalytic reactions demonstrates that the production of epoxides from lignin-derived DMPPO is a realistic strategy for making renewable polymer building blocks from biomass.

Graphical abstract: Catalytic conversion of high S-lignin to a sustainable tri-epoxide polymer precursor

Supplementary files

Article information

Article type
Paper
Submitted
02 Apr 2022
Accepted
13 May 2022
First published
25 May 2022

Green Chem., 2022,24, 4958-4968

Author version available

Catalytic conversion of high S-lignin to a sustainable tri-epoxide polymer precursor

B. Liu, M. Sanchez, J. Truong, P. C. Ford and M. M. Abu-Omar, Green Chem., 2022, 24, 4958 DOI: 10.1039/D2GC01278B

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