Construction and extension of carbon network conjugated systems under high temperature regeneration for cycling degradation of naproxen by activating peroxymonosulfate: Mechanisms of active sites self-cycling and reactive oxygen species regulation

IF 10 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Journal of Cleaner Production Pub Date : 2025-01-01 Epub Date: 2024-12-16 DOI:10.1016/j.jclepro.2024.144510

Zexin Zhu , Meng Li , Yintao Shi , Hao Zhang , Huiyuan Deng , Dongsheng Xia

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Abstract

The development of metal-free catalysts with excellent reusability and the research of effects for carbon network structures in activation process are great challenges in non-metallic catalysis today. In this study, a regenerated metal-free biochar (Re-TBC-800) was prepared by pyrolyzing multi-use black tea biochar (TBC-800) to activate peroxymonosulfate (PMS) for cycling degradation of naproxen (NPX) up to 48 times (only 6 times before regeneration). It was demonstrated by Raman and DFT calculations that the rearrangement of carbon networks during thermal regeneration resulted in the formation of a higher conjugated structure. After regeneration, C−O changed from electron acceptor to electron donor to achieve self-cycling between C=O and C−O. The reaction pathways changed from a non-radical (¹O₂ and electron transfer) effect to a synergistic (•OH, SO₄^•−, ¹O₂ and electron transfer) effect. Re-TBC-800 provided new insights into the structural design of functional catalysts.

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活化过氧单硫酸盐循环降解萘普生高温再生碳网络共轭体系的构建与扩展：活性位点自循环及活性氧调控机制

开发可重复使用的无金属催化剂以及研究活化过程中碳网络结构的影响是当今非金属催化领域面临的巨大挑战。本研究通过热解多用途红茶生物炭（TBC-800）制备了一种再生无金属生物炭（Re-TBC-800），用于活化过硫酸盐（PMS），循环降解萘普生（NPX）达 48 次（再生前仅 6 次）。拉曼和 DFT 计算表明，在热再生过程中，碳网络的重新排列形成了更高的共轭结构。再生后，C-O 从电子受体变为电子供体，实现了 C=O 和 C-O 之间的自循环。反应途径从非辐射效应（1O2 和电子转移）转变为协同效应（-OH、SO4--、1O2 和电子转移）。Re-TBC-800 为功能催化剂的结构设计提供了新的见解。

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来源期刊

Journal of Cleaner Production 环境科学-工程：环境

CiteScore

20.40

自引率

9.00%

发文量

4720

审稿时长

111 days

期刊介绍： The Journal of Cleaner Production is an international, transdisciplinary journal that addresses and discusses theoretical and practical Cleaner Production, Environmental, and Sustainability issues. It aims to help societies become more sustainable by focusing on the concept of 'Cleaner Production', which aims at preventing waste production and increasing efficiencies in energy, water, resources, and human capital use. The journal serves as a platform for corporations, governments, education institutions, regions, and societies to engage in discussions and research related to Cleaner Production, environmental, and sustainability practices.