Abstract
Because of its complexity, selective conversion of lignocellulosic biomass into platform chemicals presents significant challenges. Herein, we converted birch wood into high-yield lignin-derived phenolic monomers and dimers and holocellulose-derived polyols and monocarboxylic acids via a two-step cascade reaction using 0.1 wt% Pd on N-doped carbon (Pd0.1/CNx) and passivated alumina-coated Ni on activated carbon (Ni2 @Al2O3/AC) catalysts. The catalytic fractionation of birch sawdust using Pd0.1/CNx produced 11.1 wt% monomers, 5.6% dimers, and 63.4 wt% pulp-rich solid (PRS) based on feed weight. The subsequent conversion of PRS over passivated Ni2 @Al2O3/AC produced 21.6 wt% C2–C6 polyols and 7.9 wt% monocarboxylic acids. After the whole biomass conversion reaction, the Pd0.1/CNx and Ni2 @Al2O3/AC catalysts were separated using their different magnetic responses and reused three times without activity loss. The structure–performance relationships of the Pd0.1/CNx catalysts synthesized using different methods and effect of passivation on the performance of the Ni2 @Al2O3/AC catalyst were analyzed.
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