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Toward a New Way for the Valorization of Miscanthus Biomass Produced on Metal-Contaminated Soils Part 2: Miscanthus-Based Biosourced Catalyst: Design, Preparation, and Catalytic Efficiency in the Synthesis of Moclobemide

Author

Listed:
  • Théo Guérin

    (Laboratoire de Génie Civil et géo-Environnement (LGCgE)-EA 4515, Université Lille, 59000 Lille, France
    Environment Team, Health & Environment Department, Junia, 59000 Lille, France
    Sustainable Chemistry Team, Laboratory of Sustainable Chemistry and Health, Health & Environment Department, Junia, 59000 Lille, France)

  • Alina Ghinet

    (Sustainable Chemistry Team, Laboratory of Sustainable Chemistry and Health, Health & Environment Department, Junia, 59000 Lille, France
    CHU Lille, INSERM-U1167—RID-AGE—Facteurs de Risque et Déterminants Moléculaires des Maladies Liées au Vieillissement, Institut Paster de Lille, Université de Lille, 59000 Lille, France
    Faculty of Chemistry, ‘Alexandru Ioan Cuza’ University of Iasi, 700506 Iasi, Romania)

  • Christophe Waterlot

    (Laboratoire de Génie Civil et géo-Environnement (LGCgE)-EA 4515, Université Lille, 59000 Lille, France
    Environment Team, Health & Environment Department, Junia, 59000 Lille, France)

Abstract

The conception of two biosourced catalysts (biocatalysts) using stems of miscanthus from the first part of this study are described herein. The temperature and the process used to extract metals from plant as mixture of Lewis acids were investigated in detail and proved to be essential in the design of the biosourced catalysts and their catalytic efficiency. One part of the crude mixture of Lewis acids extracted from the aerial parts of miscanthus plants was used without further treatment as a homogeneous biocatalyst (M1), and the other part was supported on montmorillonite K10 to provide a heterogeneous biocatalyst (MM1). M1 and MM1 were next tested in the synthesis of moclobemide (main ingredient of a drug used to treat depression) and led to excellent yield. Additional comparative experiments with different commercial metallic salts (NaCl, KCl, CaCl 2 , MgCl 2 , CuCl 2 , ZnCl 2 , FeCl 2 , FeCl 3 , MnCl 2 , and AlCl 3 ) and their mixtures were carried out and underlined the importance of the multimetallic synergy on catalytic activity. Finally, a comparison of this new synthetic method assisted by the biosourced catalyst with the previously described procedures to access moclobemide was realized by calculating their green chemistry metrics. This study revealed that the use of the biosourced catalyst led to one of the greenest synthetic methods described today to produce moclobemide.

Suggested Citation

  • Théo Guérin & Alina Ghinet & Christophe Waterlot, 2020. "Toward a New Way for the Valorization of Miscanthus Biomass Produced on Metal-Contaminated Soils Part 2: Miscanthus-Based Biosourced Catalyst: Design, Preparation, and Catalytic Efficiency in the Synt," Sustainability, MDPI, vol. 13(1), pages 1-12, December.
    • Handle: RePEc:gam:jsusta:v:13:y:2020:i:1:p:34-:d:466635
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    References listed on IDEAS

    as
    1. Guangchen Li & Michal Szostak, 2018. "Highly selective transition-metal-free transamidation of amides and amidation of esters at room temperature," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
    2. Mikkel T. Jensen & Magnus H. Rønne & Anne K. Ravn & René W. Juhl & Dennis U. Nielsen & Xin-Ming Hu & Steen U. Pedersen & Kim Daasbjerg & Troels Skrydstrup, 2017. "Scalable carbon dioxide electroreduction coupled to carbonylation chemistry," Nature Communications, Nature, vol. 8(1), pages 1-8, December.
    3. Christophe Waterlot & Marie Hechelski, 2019. "Benefits of Ryegrass on Multicontaminated Soils Part 1: Effects of Fertilizers on Bioavailability and Accumulation of Metals," Sustainability, MDPI, vol. 11(18), pages 1-20, September.
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