Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow

Mortier, Jonas; Bozell, Joseph J.; Stevens, Christian; Heugebaert, Thomas

Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow

Jonas Mortier (UGent) , Joseph J. Bozell, Christian Stevens (UGent) and Thomas Heugebaert (UGent)

(2024) REACTION CHEMISTRY & ENGINEERING. 9(6). p.1569-1578

Author

Jonas Mortier (UGent) , Joseph J. Bozell, Christian Stevens (UGent) and Thomas Heugebaert (UGent)

Organization

Department of Green Chemistry and Technology

Project

Excited molecules: development of photo- and redox-pathways as tools for green chemistry and bio-resource valorization

Abstract

This study investigates the Co(salen)-catalyzed oxidative cleavage of monomeric lignin model substrates to benzoquinones in a continuous flow system and maps the impact of various reaction parameters on the selectivity and yield of the cleavage. Our findings highlight the crucial role of precise oxygen dosing and its interplay with product solubility to achieve a successful reaction. Exposing the substrates to excess oxygen in a continuous flow system resulted in lower yields, while product precipitation was shown to be crucial in batch systems. Additionally, we explored the effects of added bases, oxygen pressure, solvents, and reaction time in a batch set-up. Overall, this work presents a valuable overview of what conditions are favourable when conversion towards benzoquinones is desired and what conditions should be avoided. Continuous flow screening improved Co(salen)-catalyzed oxidative cleavage of lignin models, revealing new key parameters for robust and optimal batch operation.

Keywords

CONVERSION

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01J0V0JNN3V15HTVA8JPQQJPYV

MLA: Mortier, Jonas, et al. “Oxidative Cleavage of Lignin Model Substrates with Co(Salen) Catalyst : An Experimental Study on the Effect of Different Reaction Parameters in Batch and Continuous Flow.” REACTION CHEMISTRY & ENGINEERING, vol. 9, no. 6, 2024, pp. 1569–78, doi:10.1039/d3re00638g.
APA: Mortier, J., Bozell, J. J., Stevens, C., & Heugebaert, T. (2024). Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow. REACTION CHEMISTRY & ENGINEERING, 9(6), 1569–1578. https://doi.org/10.1039/d3re00638g
Chicago author-date: Mortier, Jonas, Joseph J. Bozell, Christian Stevens, and Thomas Heugebaert. 2024. “Oxidative Cleavage of Lignin Model Substrates with Co(Salen) Catalyst : An Experimental Study on the Effect of Different Reaction Parameters in Batch and Continuous Flow.” REACTION CHEMISTRY & ENGINEERING 9 (6): 1569–78. https://doi.org/10.1039/d3re00638g.
Chicago author-date (all authors): Mortier, Jonas, Joseph J. Bozell, Christian Stevens, and Thomas Heugebaert. 2024. “Oxidative Cleavage of Lignin Model Substrates with Co(Salen) Catalyst : An Experimental Study on the Effect of Different Reaction Parameters in Batch and Continuous Flow.” REACTION CHEMISTRY & ENGINEERING 9 (6): 1569–1578. doi:10.1039/d3re00638g.
Vancouver: 1.
Mortier J, Bozell JJ, Stevens C, Heugebaert T. Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow. REACTION CHEMISTRY & ENGINEERING. 2024;9(6):1569–78.
IEEE: [1]
J. Mortier, J. J. Bozell, C. Stevens, and T. Heugebaert, “Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow,” REACTION CHEMISTRY & ENGINEERING, vol. 9, no. 6, pp. 1569–1578, 2024.

@article{01J0V0JNN3V15HTVA8JPQQJPYV,
  abstract     = {{This study investigates the Co(salen)-catalyzed oxidative cleavage of monomeric lignin model substrates to benzoquinones in a continuous flow system and maps the impact of various reaction parameters on the selectivity and yield of the cleavage. Our findings highlight the crucial role of precise oxygen dosing and its interplay with product solubility to achieve a successful reaction. Exposing the substrates to excess oxygen in a continuous flow system resulted in lower yields, while product precipitation was shown to be crucial in batch systems. Additionally, we explored the effects of added bases, oxygen pressure, solvents, and reaction time in a batch set-up. Overall, this work presents a valuable overview of what conditions are favourable when conversion towards benzoquinones is desired and what conditions should be avoided. Continuous flow screening improved Co(salen)-catalyzed oxidative cleavage of lignin models, revealing new key parameters for robust and optimal batch operation.
}},
  author       = {{Mortier, Jonas and Bozell, Joseph J. and Stevens, Christian and Heugebaert, Thomas}},
  issn         = {{2058-9883}},
  journal      = {{REACTION CHEMISTRY & ENGINEERING}},
  keywords     = {{CONVERSION}},
  language     = {{eng}},
  number       = {{6}},
  pages        = {{1569--1578}},
  title        = {{Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow}},
  url          = {{http://doi.org/10.1039/d3re00638g}},
  volume       = {{9}},
  year         = {{2024}},
}

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Oxidative cleavage of lignin model substrates with Co(salen) catalyst : an experimental study on the effect of different reaction parameters in batch and continuous flow

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