用于甲酸加氢的生物质衍生铁 - 氮 - 碳杂化物：铁基纳米颗粒分布的控制

Biomass-derived Fe-NC hybrid for hydrogenation with formic acid: control of Fe-based nanoparticle distribution.

作者信息

Liu Lu, Wang Bowei, Gao Ruixiao, Zhang Dan, Xu Wensheng, Chen Ligong, Yan Xilong, Li Yang

机构信息

School of Chemical Engineering and Technology, Tianjin University Tianjin 300350 P. R. China

Collaborative Innovation Center of Chemical Science and Engineering (Tianjin) Tianjin 300072 P. R. China.

出版信息

RSC Adv. 2020 Mar 13;10(18):10689-10694. doi: 10.1039/d0ra01356k. eCollection 2020 Mar 11.

DOI:10.1039/d0ra01356k

PMID:35492935

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9050371/

Abstract

A series of Fe-NC catalysts were synthesized by pyrolyzing an Fe complex and wheat flour at 500 °C. All of them were characterized and applied in the catalytic transfer hydrogenation of nitroarenes with formic acid. It was found that the catalytic activity was significantly affected by the size and distribution of Fe-based nanoparticles (NPs), which could be easily regulated by altering the Fe source. Meanwhile, more basic nitrogen sites were preserved on the catalyst so that the reaction ran smoothly without base additives. Among all catalysts, Fe-NC-FeCl exhibited the best catalytic performance due to smaller FeO NPs and greater N doping. Moreover, it showed excellent applicability for diverse nitroarenes. Obviously, this work demonstrates the importance of the metallic NPs' size and distribution, providing a new insight into the design of M-NC catalysts. The catalyst is economical and eco-friendly, and shows potential application value in industry.

摘要

通过在500℃下热解铁配合物和小麦粉合成了一系列Fe-NC催化剂。对所有催化剂进行了表征，并将其应用于用甲酸催化硝基芳烃的转移加氢反应。发现催化活性受铁基纳米颗粒（NPs）的尺寸和分布的显著影响，通过改变铁源可以很容易地对其进行调节。同时，催化剂上保留了更多的碱性氮位点，因此反应在无碱添加剂的情况下顺利进行。在所有催化剂中，Fe-NC-FeCl由于较小的FeO NPs和较高的N掺杂而表现出最佳的催化性能。此外，它对多种硝基芳烃表现出优异的适用性。显然，这项工作证明了金属NPs尺寸和分布的重要性，为M-NC催化剂的设计提供了新的见解。该催化剂经济环保，在工业上具有潜在的应用价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e94/9050371/f76fd4d5694f/d0ra01356k-f1.jpg

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用于甲酸加氢的生物质衍生铁 - 氮 - 碳杂化物：铁基纳米颗粒分布的控制

Biomass-derived Fe-NC hybrid for hydrogenation with formic acid: control of Fe-based nanoparticle distribution.

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