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用于高效降解新兴污染物的高度稳定的碳包覆纳米零价铁复合材料Fe@RF-C

Highly stable carbon-coated nZVI composite Fe@RF-C for efficient degradation of emerging contaminants.

作者信息

Xu Guizhou, Sun Lin, Tu Yizhou, Teng Xiaolei, Qi Yumeng, Wang Yaoyao, Li Aimin, Xie Xianchuan, Gu Xueyuan

机构信息

State Key Laboratory of Pollution Control and Resource Reuse, School of the Environment, Nanjing University, Nanjing, 210023, China.

Key Laboratory of Poyang Lake Environment and Resource Utilization, Engineering Research Center of Watershed Carbon Neutralization, Ministry of Education, School of Resource and Environment, Nanchang University, Nanchang, 330031, China.

出版信息

Environ Sci Ecotechnol. 2024 Jul 18;22:100457. doi: 10.1016/j.ese.2024.100457. eCollection 2024 Nov.

DOI:10.1016/j.ese.2024.100457
PMID:39161572
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11331822/
Abstract

Nanoscale zerovalent iron (nZVI) has garnered significant attention as an efficient advanced oxidation activator, but its practical application is hindered by aggregation and oxidation. Coating nZVI with carbon can effectively addresses these issues. A simple and scalable production method for carbon-coated nZVI composite is highly desirable. The anti-oxidation and catalytic performance of carbon-coated nZVI composite merit in-depth research. In this study, a highly stable carbon-coated core-shell nZVI composite (Fe@RF-C) was successfully prepared using a simple method combining phenolic resin embedding and carbothermal reduction. Fe@RF-C was employed as a heterogeneous persulfate (PS) activator for degrading 2,4-dihydroxybenzophenone (BP-1), an emerging contaminant. Compared to commercial nZVI, Fe@RF-C exhibited superior PS activation performance and oxidation resistance. Nearly 95% of BP-1 was removed within 10 min in the Fe@RF-C/PS system. The carbon layer promotes the enrichment of BP-1 and accelerates its degradation through singlet oxygen oxidation and direct electron transfer processes. This study provides a straightforward approach for designing highly stable carbon-coated nZVI composite and elucidates the enhanced catalytic performance mechanism by carbon layers.

摘要

纳米零价铁(nZVI)作为一种高效的高级氧化活化剂已引起广泛关注,但其实际应用受到团聚和氧化的阻碍。用碳包覆nZVI可有效解决这些问题。非常需要一种简单且可扩展的碳包覆nZVI复合材料的生产方法。碳包覆nZVI复合材料的抗氧化和催化性能值得深入研究。在本研究中,通过酚醛树脂包埋和碳热还原相结合的简单方法成功制备了一种高度稳定的碳包覆核壳nZVI复合材料(Fe@RF-C)。Fe@RF-C被用作非均相过硫酸盐(PS)活化剂来降解新兴污染物2,4-二羟基二苯甲酮(BP-1)。与商业nZVI相比,Fe@RF-C表现出优异的PS活化性能和抗氧化性。在Fe@RF-C/PS体系中,10分钟内近95%的BP-1被去除。碳层促进BP-1的富集,并通过单线态氧氧化和直接电子转移过程加速其降解。本研究为设计高度稳定的碳包覆nZVI复合材料提供了一种直接方法,并阐明了碳层增强催化性能的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0f95/11331822/6c0c1c1f226e/gr2.jpg

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