生物源多金属催化：促进克诺文纳格尔缩合反应的一种惊人且高效的方法。

Biosourced Polymetallic Catalysis: A Surprising and Efficient Means to Promote the Knoevenagel Condensation.

作者信息

Deyris Pierre-Alexandre, Bert Valérie, Diliberto Sébastien, Boulanger Clotilde, Petit Eddy, Legrand Yves-Marie, Grison Claude

机构信息

Laboratoire de Chimie Bio-Inspirée et D'Innovations Ecologiques, UMR 5021 Centre National de la Recherche Scientifique - Université de Montpellier, Grabels, France.

INERIS, Clean and Sustainable Technologies and Processes Unit, DRC/RISK, Parc Technologique Alata, BP2, Verneuil-en-Halatte, France.

出版信息

Front Chem. 2018 Mar 27;6:48. doi: 10.3389/fchem.2018.00048. eCollection 2018.

DOI:10.3389/fchem.2018.00048

PMID:29637065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5881248/

Abstract

Zn hyperaccumulator () and Zn accumulator "Tordis" ( × ) have shown their interest in the phytoextraction of polluted brownfields. Herein, we explore a novel methodology based on the chemical valorization of Zn-rich biomass produced by these metallophyte plants. The approach is based on the use of polymetallic salts derived from plants as bio-based catalysts in organic chemistry. The formed ecocatalysts were characterized via ICP-MS, X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) in order to precise the chemical composition, structure, and behavior of the formed materials. The Doebner-Knoevenagel reaction was chosen as model reaction to study their synthetic potential. Significant differences to usual catalysts such as zinc (II) chloride are observed. They can principally be related to a mixture of unusual mineral species. DFT calculations were carried out on these salts in the context of the Gutmann theory. They allow the rationalization of experimental results. Finally, these new bio-based polymetallic catalysts illustrated the interest of this concept for green and sustainable catalysis.

摘要

锌超积累植物（）和锌积累植物“托尔迪斯”（×）已显示出它们对污染棕地植物提取的兴趣。在此，我们探索了一种基于这些金属植物产生的富锌生物质化学增值的新方法。该方法基于使用源自植物的多金属盐作为有机化学中的生物基催化剂。通过电感耦合等离子体质谱（ICP-MS）、X射线衍射（XRD）、傅里叶变换红外光谱（FT-IR）对形成的生态催化剂进行表征，以确定所形成材料的化学成分、结构和行为。选择多布纳-克诺文纳格尔反应作为模型反应来研究它们的合成潜力。观察到与常用催化剂如氯化锌（II）有显著差异。它们主要可归因于不寻常矿物种类的混合物。在古特曼理论的背景下对这些盐进行了密度泛函理论（DFT）计算。这些计算使实验结果合理化。最后，这些新型生物基多金属催化剂表明了这一概念在绿色和可持续催化方面的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/14c2/5881248/2d698c4bef7c/fchem-06-00048-g0001.jpg

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生物源多金属催化：促进克诺文纳格尔缩合反应的一种惊人且高效的方法。

Biosourced Polymetallic Catalysis: A Surprising and Efficient Means to Promote the Knoevenagel Condensation.

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