原位表面修饰 FeC/FeO/C 纳米片：构建兼具超级电容器和高效染料吸附性能的双功能活性炭。

In situ surface decoration of FeC/FeO/C nanosheets: Towards bi-functional activated carbons with supercapacitance and efficient dye adsorption.

机构信息

College of Chemistry and Environmental Engineering, Shenzhen University, Shenzhen 518060, PR China.

College of Chemistry and Environmental Engineering, Shenzhen University, Shenzhen 518060, PR China; Shenzhen Key Laboratory of Environmental Chemistry and Ecological Remediation, Shenzhen University, Shenzhen 518060, PR China.

出版信息

Bioresour Technol. 2018 May;256:208-215. doi: 10.1016/j.biortech.2018.02.027. Epub 2018 Feb 6.

DOI:10.1016/j.biortech.2018.02.027

PMID:29448157

Abstract

This work reports a bi-functional activated porous carbon (PC) prepared from a biomass tofu, with excellent capacities for charge storage and adsorption of organic dyes, which is enabled by decorating with FeC/FeO/C nanosheets. The in-situ growth and self-assembly of the nanosheets on the carbon surface are achieved by a one-step catalytic carbonization of tofu simultaneously with FeCl and ZnCl catalysts. Due to the high surface area and unique iron compounds-containing and sheet-like structures, the PCs exhibit an electrochemical capacitance of 315 F g at 0.5 A g as supercapacitor electrodes, and an ultrahigh adsorption capacity of 918 mg g for methylene blue (MB) and 868 mg g for Rhodamine B (RhB). This study provides a new perspective for understanding the effects of surface engineering on increasing charge storage and dye adsorption ability of biomass-derived PCs as well as for developing bi-functional PCs with novel magnetic properties.

摘要

这项工作报道了一种由生物质豆腐制备的双功能活化多孔碳 (PC)，其通过负载 FeC/FeO/C 纳米片，具有优异的电荷存储和有机染料吸附能力。纳米片在碳表面的原位生长和自组装是通过豆腐与 FeCl 和 ZnCl 催化剂一步催化碳化来实现的。由于高比表面积和独特的含铁化合物含量及片状结构，PCs 在超级电容器电极中表现出 315 F g 的电化学电容，对亚甲基蓝 (MB) 的超高吸附容量为 918 mg g，对 Rhodamine B (RhB) 的吸附容量为 868 mg g。本研究为理解表面工程对提高生物质衍生 PC 电荷存储和染料吸附能力的影响提供了新的视角，并为开发具有新型磁性的双功能 PC 提供了新的思路。

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原位表面修饰 FeC/FeO/C 纳米片：构建兼具超级电容器和高效染料吸附性能的双功能活性炭。

In situ surface decoration of FeC/FeO/C nanosheets: Towards bi-functional activated carbons with supercapacitance and efficient dye adsorption.

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