1. Power-to-chemicals: Low-temperature plasma for lignin depolymerisation in ethanol.
- Author
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Zhou, Rusen, Zhou, Renwu, Wang, Sen, Mihiri Ekanayake, U.G., Fang, Zhi, Cullen, Patrick J., Bazaka, Kateryna, and Ostrikov, Kostya (Ken)
- Subjects
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DEPOLYMERIZATION , *LIGNIN structure , *PLASMA chemistry , *DICARBOXYLIC acids , *HABER-Weiss reaction , *ACID derivatives , *LIGNOCELLULOSE - Abstract
• New effective approach for lignin depolymerisation into renewable chemicals. • Energy-efficient, scalable biomass conversion enabled by low-temperature plasmas. • Fenton reaction assisted high conversion yield under industry relevant conditions. • Chemical industry-sought product rich in aromatics and dicarboxylic acids. Lignin valorisation into renewable fuels and platform chemicals is desirable but still encounters major challenges due to lignin's recalcitrant structure, and the lack of cost-, energy-, and material efficient conversion processes. Herein, we report a low-temperature plasma-based route to lignin depolymerisation at mild conditions. The discharge over ethanol surface locally creating a high-energy and reactive environment rich in free electrons, energetic H radicals, and other reactive species, is well suited for lignin depolymerisation. Furthermore, assisted with a Fenton reaction (by adding Fe 2 O 3 and H 2 O 2) to sustain a more oxidative environment, the lignin conversion yield increases from 42.6% to 66.0%. Thus-obtained renewable chemicals are rich in aromatics and dicarboxylic acid derivatives. The proposed strategy on intensifying reactive chemistry by high-power plasmas enables an effective power-to-chemicals conversion of lignin and may provide useful guidelines for modern biorefineries. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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