Chitosan-Derived Nitrogen-Doped Carbon Electrocatalyst for a Sustainable Upgrade of Oxygen Reduction to Hydrogen Peroxide in UV-Assisted Electro-Fenton Water Treatment

Giorgia  Daniel; Yanyu  Zhang; Sonia  Lanzalaco; Federico  Brombin; Tomasz  Kosmala; Gaetano  Granozzi; Aimin  Wang; Enric  Brillas; Ignasi  Sirés; Christian  Durante

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Chitosan-Derived Nitrogen-Doped Carbon Electrocatalyst for a Sustainable Upgrade of Oxygen Reduction to Hydrogen Peroxide in UV-Assisted Electro-Fenton Water Treatment

机译：壳聚糖衍生的氮掺杂碳电催化剂，用于可持续升级氧化氧化氧化物的氧化氢气氧化氢水处理

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The urgency to move from critical raw materials to highly available and renewable feedstock is currently driving the scientific and technical developments. Within this context, the abundance of natural resources like chitosan paves the way to synthesize biomass-derived nitrogen-doped carbons. This work describes the synthesis of chitosan-derived N-doped mesoporous carbon in the absence (MC-C) and presence (N-MC-C) of 1,10-phenanthroline, which acted as both a porogen agent and a second nitrogen source. The as-prepared MC-C and N-MC-C were thoroughly characterized and further employed as catalytic materials in gas-diffusion electrodes (GDEs), aiming to develop a sustainable alternative to conventional GDEs for H_(2)O_(2) electrogeneration and photoelectro-Fenton (PEF) treatment of a drug pollutant. N-MC-C presented a higher content of key surface N-functionalities like the pyrrole group, as well as an increased graphitization degree and surface area (63 vs 6 m~(2)/g), comparable to commercial carbon black. These properties entailed a superior activity of N-MC-C for the oxygen reduction reaction, as confirmed from its voltammetric behavior at a rotating ring-disk electrode. The GDE prepared with the N-MC-C catalyst showed greater H_(2)O_(2) accumulation, attaining values close to those obtained with a commercial GDE. N-MC-C- and MC-C-derived GDEs were employed to treat drug solutions at pH 3.0 by the PEF process, which outperformed electro-oxidation. The fastest drug removal was achieved using N-MC-C, requiring only 16 min at 30 mA/cm~(2) instead of 20 min required with MC-C. The replacement of the dimensionally stable anode by a boron-doped diamond accelerated the degradation process, reaching an almost complete mineralization in 360 min. The main degradation products were identified, revealing the formation of six different aromatic intermediates, alongside five aliphatic compounds that comprised three nitrogenated structures. The initial N was preferentially converted into ammonium.

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来源
《ACS Sustainable Chemistry & Engineering》 |2020年第38期|共16页
作者
Giorgia Daniel; Yanyu Zhang; Sonia Lanzalaco; Federico Brombin; Tomasz Kosmala; Gaetano Granozzi; Aimin Wang; Enric Brillas; Ignasi Sirés; Christian Durante;
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作者单位

Department of Chemical Sciences University of Padua Via Marzolo;

Laboratori d’Electroqu??mica dels Materials i del Medi Ambient Departament de Qu??mica F??sica Facultat de Qu??mica Universitat de Barcelona;

Departament d’Enginyeria Qu??mica EEBE Universitat Politècnica de Catalunya C/ Eduard Maristany;

Department of Chemical Sciences University of Padua Via Marzolo;

Department of Chemical Sciences University of Padua Via Marzolo;

Department of Chemical Sciences University of Padua Via Marzolo;

Department of Municipal and Environmental Engineering Beijing Key Laboratory of Aqueous Typical Pollutants Control and Water Quality Safeguard Beijing Jiaotong University;

Laboratori d’Electroqu??mica dels Materials i del Medi Ambient Departament de Qu??mica F??sica Facultat de Qu??mica Universitat de Barcelona;

Laboratori d’Electroqu??mica dels Materials i del Medi Ambient Departament de Qu??mica F??sica Facultat de Qu??mica Universitat de Barcelona;

Department of Chemical Sciences University of Padua Via Marzolo;

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正文语种 eng
中图分类化学工业;
关键词
biomass; electrochemical water treatment; gas-diffusion electrode; nitrogen-doped carbon; organic pollutant; oxygen reduction reaction;

机译：生物质;电化学水处理;气体扩散电极;氮掺杂碳;有机污染物;氧还原反应;

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2. Efficient oxygen reduction reaction by a highly porous,nitrogen-doped carbon sphere electrocatalyst through space confinement effect in nanopores [J] . Zheyang MO, Weiyi YANG, Shuang GAO, 先进陶瓷（英文版） . 2021,第004期
3. Cobalt and nitrogen codoped porous carbon as superior bifunctional electrocatalyst for oxygen reduction and hydrogen evolution reaction in alkaline medium [J] . Xiaoxia Chen, Xiangjun Zhen, Hongyu Gong, 中国化学快报（英文版） . 2019,第003期
4. High-yield electrochemical hydrogen peroxide production from an enhanced two-electron oxygen reduction pathway by mesoporous nitrogen-doped carbon and manganese hybrid electrocatalysts [J] . Ayeong Byeon, Jinwon Cho, Jong Min Kim Nanoscale Horizons . 2020,第5期

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5. Heat-treated iron(III) tetramethoxyphenyl porphyrin chloride supported on high-area carbon as an electrocatalyst for oxygen reduction: part III. detection of hydrogen-peroxide during oxygen reduction [J] . S. Lj. Gojkovic, S. Gupta, R. F. Savinell Electrochimica Acta . 1999,第6期

机译：载于高面积碳上的热处理过的四甲氧基苯基铁卟啉铁（III）用作氧还原的电催化剂：第三部分。氧还原过程中过氧化氢的检测
6. Mo-Doped Zn, Co Zeolitic Imidazolate Framework-Derived Co9S8 Quantum Dots and MoS2 Embedded in Three-Dimensional Nitrogen-Doped Carbon Nanoflake Arrays as an Efficient Trifunctional Electrocatalysts for the Oxygen Reduction Reaction, Oxygen Evolution Reaction, and Hydrogen Evolution Reaction [J] . Zhang Wenming, Zhao Xinyan, Zhao Youwei, ACS applied materials & interfaces . 2020,第9期

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7. (Invited) Electrocatalysts for Oxygen Reduction Reaction Based on Nitrogen-Doped Carbon and Atomically-Dispersed/Nanoclustered Metal [C] . JeongHan Roh, Jing Liu, EunAe Cho Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

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8. Treatment of ibuprofen containing industrial first wash-water by ozonation, sonication, ozonation/hydrogen peroxide, ozonation/sonication, and sonication/hydrogen peroxide [D] . Danylo, Felix 2011

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9. Nitrogen-Doped Superporous Activated Carbons as Electrocatalysts for the Oxygen Reduction Reaction [O] . María José Mostazo-López, David Salinas-Torres, Ramiro Ruiz-Rosas, 2019

机译：氮掺杂超孔活性炭作为氧还原反应的电催化剂
10. Chitosan-Derived Nitrogen-Doped Carbon Electrocatalyst for a Sustainable Upgrade of Oxygen Reduction to Hydrogen Peroxide in UV-Assisted Electro-Fenton Water Treatment [O] . -1

机译：壳聚糖衍生的氮掺杂碳电催化剂，用于可持续升级氧化氧化氧化氢的氧化氢气氧化氢水处理
11. Electrochemistry of Oxygen Reduction. 4. Oxygen to Water Conversion by Iron(II) Tetrakis(N-Methyl-4-Pyridyl)Porphyrin via Hydrogen Peroxide [R] . Forshey, P. A., Kuwana, T. 1983

机译：氧还原的电化学。 4.铁（II）四（N-甲基-4-吡啶基）卟啉通过过氧化氢转化为水

Chitosan-Derived Nitrogen-Doped Carbon Electrocatalyst for a Sustainable Upgrade of Oxygen Reduction to Hydrogen Peroxide in UV-Assisted Electro-Fenton Water Treatment

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