Abstract

In this study, formic acid (FA) was employed as an in-situ hydrogen donor for the reductive de-polymerization of kraft lignin (KL). Under the optimum operating conditions, i.e., 300°C, 1h, 18.6wt.% substrate concentration, 50/50 (v/v) water–ethanol medium with FA at a FA-to-lignin mass ratio of 0.7, KL (Mw∼10,000g/mol) was effectively de-polymerized, producing de-polymerized lignin (DL, Mw 1270g/mol) at a yield of ∼90wt.% and <1wt.% yield of solid residue (SR). The MW of the DL products decreased with increasing reaction temperature, time and FA-to-lignin mass ratio. The sulfur contents of all DL products were remarkably lower than that in the original KL. It was also demonstrated that FA is a more reactive hydrogen source than external hydrogen for reductive de-polymerization of KL.

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