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Fe-Nanoporous Carbon Derived from MIL-53(Fe): A Heterogeneous Catalyst for Mineralization of Organic Pollutants

机译：源自MIL-53（Fe）的Fe-纳米多孔碳：一种用于有机污染物矿化的非均相催化剂

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Catalytic electrodes were prepared via carbonization of MIL-53(Fe) on the surface of porous carbon felt electrodes (CF) for use in wastewater treatment by the heterogeneous electro-Fenton (EF) process. The best results were obtained when the carbon felt was pretreated with nitric acid, enhancing the affinity of the MIL-53(Fe) for the surface. Following a series of optimization experiments, carbonization conditions of 800 °C for 5 h were used to form Fe-nanoporous carbon (MOFs@CF). The as-prepared electrodes were used as both cathode and heterogeneous catalyst in the EF process for the mineralization of exemplar dye Acid Orange 7 (AO7). Total organic carbon (TOC) removal of 46.1% was obtained within 8 h of electrolysis at around neutral pH (6.5) and the electrode retained over 80% of its original efficiency over five treatment cycles.

机译：通过在多孔碳毡电极（CF）表面碳化MIL-53（Fe）制备催化电极，用于通过异质电芬顿（EF）工艺处理废水。当用硝酸预处理碳毡时，可获得最佳结果，从而增强了MIL-53（Fe）对表面的亲和力。经过一系列优化实验后，在800°C的条件下碳化5小时以形成Fe-纳米孔碳（MOFs @ CF）。所制备的电极在EF工艺中既用作阴极催化剂，又用作非均相催化剂，用于示例性染料酸性橙7（AO7）的矿化。在中性pH值（6.5）左右电解8小时内，总有机碳（TOC）去除率为46.1％，并且在五个处理周期中，电极保留了其原始效率的80％以上。

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期刊名称 Nanomaterials
作者
Thi Xuan Huong Le; Matthew G. Cowan; Martin Drobek; Mikhael Bechelany; Anne Julbe; Marc Cretin;
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作者单位

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年(卷),期 2019(9),4
年度 2019
页码 641
总页数 11
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
heterogeneous electro-Fenton process metal-organic framework dye removal carbon electrode;

机译：非均相电芬顿法;金属有机骨架;染料去除;碳;电极;

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1. Fe-Nanoporous Carbon Derived from MIL-53(Fe): A Heterogeneous Catalyst for Mineralization of Organic Pollutants [J] . Thi Xuan Huong Le, Matthew G. Cowan, Martin Drobek, Nanomaterials . 2019,第4期

机译：源自MIL-53（Fe）的Fe-纳米多孔碳：一种用于有机污染物矿化的非均相催化剂
2. Synthesis of MIL-53(Fe) Metal-Organic Framework Material and Its Application as a Catalyst for Fenton-Type Oxidation of Organic Pollutants [J] . Pham Dinh Du, Pham Ngoc Hoai Advances in materials science and engineering . 2021,第a期

机译：MIL-53（Fe）金属 - 有机骨架材料的合成及其作为有机污染物氧化型氧化催化剂的应用
3. Novel perovskite-based composites, La1-xNdxFeO3@activated carbon, as efficient catalysts for the degradation of organic pollutants by heterogeneous electro-Fenton reactions [J] . Wang Qijun, Zhou Shu, Xiao Song, RSC Advances . 2018,第27期

机译：基于新的钙钛矿复合材料，La1-XNDXFeO3 @活性炭，作为有机污染物的有效电芬顿反应的有效催化剂
4. Integrated Scheme for Removal and Decomposition of Organic Pollutants from Water and Air on the Base of Effective Carbon Adsorbents and Catalysts [C] . Mehmet Ferhat Yardim, Boyko Tsyntsarski, Tanya Tsoncheva Annual World Conference on Carbon . 2015

机译：用于从有效碳吸附剂和催化剂基础的水和空气中除去和分解有机污染物的综合方案
5. Utilization of biomass derived furans in value-added organics and heterogeneous oxorhenium catalysts for deoxydehydration of diols. [D] . Wegenhart, Benjamin L. 2013

机译：利用生物质衍生的呋喃在增值有机物和非均相氧化or催化剂中进行二醇脱氧脱水。
6. Activation performance and mechanism of a novel heterogeneous persulfate catalyst: Metal Organic Framework MIL-53(Fe) with FeII/FeIII mixed-valence coordinative unsaturated iron center [O] . Mengjie Pu, Yongwen Ma, Jinquan Wan, -1

机译：新型非均相过硫酸盐催化剂：具有FeII / FeIII混合价配位不饱和铁中心的金属有机骨架MIL-53（Fe）的活化性能和机理
7. Synthesis of MIL-53(Fe) Metal-Organic Framework Material and Its Application as a Catalyst for Fenton-Type Oxidation of Organic Pollutants [O] . Pham Dinh Du, Pham Ngoc Hoai 2021

机译：MIL-53（Fe）金属 - 有机骨架材料的合成及其作为有机污染物氧化型氧化催化剂的应用

Fe-Nanoporous Carbon Derived from MIL-53(Fe): A Heterogeneous Catalyst for Mineralization of Organic Pollutants

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