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普鲁士蓝@酵母生物模板可控转化为三维笼状磁性FeO@N掺杂碳吸附剂及其过硫酸盐活化的内聚再生

Controllable conversion of Prussian blue@yeast bio-template into 3D cage-like magnetic FeO@N-doped carbon absorbent and its cohesive regeneration by persulfate activation.

作者信息

Chen Si, Bai Bo, He Yunhua, Hu Na, Wang Honglun, Suo Yourui

机构信息

Key Laboratory of Subsurface Hydrology and Ecological Effects in Arid Region of the Ministry of Education, Chang'an University No. 126 Yanta Road Xi'an 710054 Shaanxi China.

College of Environmental Science and Engineering, Chang'an University Xi'an 710054 P. R. China

出版信息

RSC Adv. 2019 Jan 8;9(2):1151-1164. doi: 10.1039/c8ra08886a. eCollection 2019 Jan 2.

DOI:10.1039/c8ra08886a
PMID:35517596
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9059510/
Abstract

A multitude of heteroatom-doped carbon adsorbents have been explored to cope with ever-growing organic pollution. However, development of these advanced carbon materials with adequate activity and stability remains challenging. Herein, unique 3D cage-like magnetic N-doped FeO@C adsorbents were rationally constructed by a one-step pyrolysis of Prussian blue@yeast (PB@yeast) bio-templates. By using yeast as an available biological support, the prepared FeO@C hybrids were demonstrated to provide a sufficient number of Fe, N and C atoms for the novel cage-like microstructures, making them a new type of Fe, N co-doped carbon absorbents with a facile preparation procedure and remarkable adsorption behavior. Rhodamine B (RhB) removal indicated that the prepared N-doped FeO@C adsorbents displayed high adsorption capabilities in a near-neutral solution, and FeO@C (1 : 0.11) exhibited a maximum adsorption capability of 257.06 mg g. More importantly, spent N-doped FeO@C absorbents, which could be recovered by magnetic separation and cohesive persulfate (PS) activated photo-Fenton regeneration, showed excellent adsorption reusability and high stability even after 5 cycles. Overall, this paper presents a simple method for fabrication of a 3D cage-like magnetic N-doped FeO@C adsorbent, which provides a significant guidance for the study of Fe, N co-doped carbon adsorbents towards dye wastewater treatment.

摘要

为应对日益严重的有机污染问题,人们已探索了多种杂原子掺杂的碳吸附剂。然而,开发具有足够活性和稳定性的先进碳材料仍然具有挑战性。在此,通过对普鲁士蓝@酵母(PB@酵母)生物模板进行一步热解,合理构建了独特的三维笼状磁性氮掺杂FeO@C吸附剂。通过使用酵母作为可用的生物载体,所制备的FeO@C杂化物被证明为新型笼状微结构提供了足够数量的铁、氮和碳原子,使其成为一种新型的铁、氮共掺杂碳吸附剂,制备过程简便且吸附性能卓越。罗丹明B(RhB)去除实验表明,所制备的氮掺杂FeO@C吸附剂在近中性溶液中表现出高吸附能力,且FeO@C(1:0.11)的最大吸附能力为257.06 mg/g。更重要的是,用过的氮掺杂FeO@C吸附剂可通过磁分离和凝聚过硫酸盐(PS)活化光芬顿再生回收,即使经过5个循环后仍表现出优异的吸附可重复使用性和高稳定性。总体而言,本文提出了一种制备三维笼状磁性氮掺杂FeO@C吸附剂的简便方法,为铁、氮共掺杂碳吸附剂用于染料废水处理的研究提供了重要指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/851a/9059510/11807710bd1c/c8ra08886a-f6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/851a/9059510/1bca651a4b6a/c8ra08886a-s1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/851a/9059510/11807710bd1c/c8ra08886a-f6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/851a/9059510/1bca651a4b6a/c8ra08886a-s1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/851a/9059510/a43bb1cc7278/c8ra08886a-f1.jpg
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