Ethylene Glycol (EG)-Derived Chlorine-Resistant Cu0/TiO2–x for Efficient Photocatalytic Degradation of Nitrate to N2 without Sacrificial Agents at Near-Neutral pH Conditions: The Synergistic Effects of Cu0 and EG Radicals

IF 10.8 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

环境科学与技术 Pub Date : 2024-10-18 DOI:10.1021/acs.est.4c09037

Yekun Ji, Hao Dong, Qi Shao, Tiancheng Wen, Lisha Wang, Jian Zhang, Chao Long

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Abstract

The selective photoreduction of nitrate to nontoxic nitrogen gas has emerged as an energy-efficient and environmentally friendly route for nitrate removal. However, the coexisting high-concentration chloride ions in wastewater can exert a significant influence on nitrate reduction due to the competitive adsorption and corrosion of Cl^– on photocatalysts. Herein, we prepared ethylene glycol-Cu/TiO_2–x (EG-Cu/TiO_2–x) through a solvothermal reaction of Cu-doped TiO₂ in an EG solution. The photodegradation of nitrate using EG-Cu/TiO_2–x without adding sacrificial agents can efficiently occur in near-neutral pH solutions containing 50 mM Cl^– with 95.26% of NO₃^– removal and 76.52% of N₂ selectivity. Moreover, the photocatalyst performance remained at a high level after 8 cycles. In this work, NO₃^– was first converted to NH₄⁺ by Cu⁰ and Ti³⁺, followed by the NH₄⁺-to-N₂ conversion by photogenerated chlorine free radicals. Compared to HO^•, Cl^•, and Cl₂^•–, ClO^• is proved to play the predominant role in transforming NH₄⁺ to N₂. The EG radicals produced by UV light impede Cl^– adsorption on Cu, protecting Cu⁰ from being corroded. What’s more, photoelectrons can reduce Ti⁴⁺ to Ti³⁺ and protect Cu⁰ from being oxidized, enabling the stability of reactive sites. This work provides novel insights and understanding on designing photocatalysts for NO₃^– removal in solutions containing chloride ions, highlighting the significance of eliminating Cl^– by EG radicals and adjusting the conversion process of NO₃^– for the efficient removal of NO₃^–.

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乙二醇 (EG) 衍生的抗氯 Cu0/TiO2-x 在近中性 pH 值条件下无人工合成剂高效光催化降解硝酸盐至 N2：Cu0和EG自由基的协同效应

将硝酸盐选择性光还原为无毒氮气已成为一种节能环保的硝酸盐去除方法。然而，由于 Cl- 对光催化剂的竞争性吸附和腐蚀作用，废水中同时存在的高浓度氯离子会对硝酸盐还原产生重大影响。在此，我们通过 Cu 掺杂 TiO2 在 EG 溶液中的溶解热反应制备了乙二醇-Cu/TiO2-x（EG-Cu/TiO2-x）。利用 EG-Cu/TiO2-x 在不添加牺牲剂的情况下，在含有 50 mM Cl- 的近中性 pH 溶液中有效地实现了硝酸盐的光降解，NO3- 去除率为 95.26%，N2 选择性为 76.52%。此外，光催化剂的性能在 8 个循环后仍保持在较高水平。在这项工作中，Cu0 和 Ti3+ 首先将 NO3- 转化为 NH4+，然后通过光生氯自由基将 NH4+ 转化为 N2。事实证明，与 HO-、Cl-和 Cl2-相比，ClO-在将 NH4+ 转化为 N2 的过程中起着主导作用。紫外线产生的 EG 自由基阻碍了 Cl- 在 Cu 上的吸附，保护 Cu0 不受腐蚀。此外，光电子还能将 Ti4+ 还原成 Ti3+，保护 Cu0 不被氧化，使反应位点保持稳定。这项工作为设计光催化剂去除含氯离子溶液中的 NO3- 提供了新的见解和认识，突出了通过 EG 自由基消除 Cl- 和调整 NO3- 的转化过程对高效去除 NO3- 的重要意义。

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来源期刊

环境科学与技术环境科学-工程：环境

CiteScore

17.50

自引率

9.60%

发文量

12359

审稿时长

2.8 months

期刊介绍： Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.