三维 BiOCl-石墨烯气凝胶的原位合成及光辅助过硫酸盐活化的协同效应用于甲基橙降解。

In Situ Synthesis of 3D BiOCl-Graphene Aerogel and Synergistic Effect by Photo-Assisted Activation of Persulfate for Methyl Orange Degradation.

机构信息

School of Energy and Environmental Engineering, Zhongyuan University of Technology, Zhengzhou 450007, China.

Science and Technology Innovation Coordination Service Center of Laiwu District, Jinan 271100, China.

出版信息

Molecules. 2023 Jun 24;28(13):4964. doi: 10.3390/molecules28134964.

DOI:10.3390/molecules28134964

PMID:37446624

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10343468/

Abstract

BiOCl/graphene aerogel graphene (BGA) was successfully obtained by in situ hydrothermal synthesis, and the chemical, structural, morphological, and photocatalytic properties were systematically characterized. BGA with the doping amount of BiOCl at 20% (BGA-4) exhibited the optimal activation efficiency for persulfate (PDS) on the degradation of methyl orange (MO) under simulated sunlight (SSL) illumination as compared to the pure graphene (GA) and aerogel composites with different BiOCl content. The influence of various reaction parameters on the MO removal efficiency, such as the reaction system, catalyst activator dose, PDS concentration, BiOCl doping amount, and the initial pH of the solution, was investigated. Under optimum conditions, the catalytic efficiency of BiOCl-doped GA with the mass ratio of 20% (BGA-4) was 5.61 times that of GA. The strengthening effect of BGA-4 benefited from the synergistic effect of O, O· and the generation and rapid electron transfer of photo-induced electron (e) in the BGA-4/SSL/PDS system. Considering the superior stability and recyclability of BGA-4, the BGA-4/SSL/PDS system exhibits great potential in actual wastewater treatment.

摘要

BiOCl/石墨烯气凝胶（BGA）通过原位水热合成成功获得，并对其化学、结构、形态和光催化性能进行了系统的表征。与纯石墨烯（GA）和不同 BiOCl 含量的气凝胶复合材料相比，掺杂量为 20%（BGA-4）的 BGA 在模拟太阳光（SSL）照射下，对过硫酸盐（PDS）降解甲基橙（MO）的活化效率最高。研究了不同反应参数对 MO 去除效率的影响，如反应体系、催化剂活化剂剂量、PDS 浓度、BiOCl 掺杂量和溶液初始 pH 值。在最佳条件下，掺杂量为 20%（BGA-4）的 BiOCl 掺杂 GA 的催化效率是 GA 的 5.61 倍。BGA-4 的增强效果得益于 BGA-4/SSL/PDS 体系中 O、O·和光生电子（e）的生成和快速转移的协同作用。考虑到 BGA-4 的优越稳定性和可回收性，BGA-4/SSL/PDS 体系在实际废水处理中具有很大的应用潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/16f5/10343468/5751c931e3e7/molecules-28-04964-g001.jpg

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三维 BiOCl-石墨烯气凝胶的原位合成及光辅助过硫酸盐活化的协同效应用于甲基橙降解。

In Situ Synthesis of 3D BiOCl-Graphene Aerogel and Synergistic Effect by Photo-Assisted Activation of Persulfate for Methyl Orange Degradation.

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