Valence-dependent activation mechanisms of persulfates by copper foam for tetracycline degradation [0.03%]
铜泡沫活化过硫酸盐降解四环素的价态机制研究
Lei Wang,Dongle Cheng,Jian Zhang et al.
Lei Wang et al.
Copper-based materials-mediated persulfate activation for pollutant degradation has attracted great interest, with copper species playing a crucial role in generating reactive species. However, the mechanism behind copper valence transforma...
Construction of dual Z-scheme UiO-66-NH2/BiOCl/BiOI heterojunction for synergistic photocatalytic CO2 reduction and organic pollutant degradation [0.03%]
用于协同光催化二氧化碳还原和有机污染物降解的双Z方案UiO-66-NH2 / BiOCl / BiOI异质结构建
Zijie Xia,Linlin Wang,Wenqi Tan et al.
Zijie Xia et al.
The heterojunction achieved 34.2 μmol/g/h CO production, 91.5 % tetracycline degradation (TC) (120 min), and 98.4 % Rhodamine B (RhB) removal (60 min), surpassing single and binary systems.
Synergy of Tetracyclines and Potassium Azeloyl Diglycinate (Azeloglycine) in Hydrogels: Evaluation of Stability, Antimicrobial Activity, and Physicochemical Properties [0.03%]
四环素和钾水杨酸双甘氨酸酯(Azeloglycine)凝胶中的协同作用:稳定性、抗菌活性和理化性质的评估
Agnieszka Kostrzębska,Adam Junka,Witold Musiał
Agnieszka Kostrzębska
The addition of azeloglycine improved the rheological properties of the hydrogels, reduced tetracycline degradation under alkaline conditions, and enhanced the penetration of active ingredients into the model sebum.
Constructing S/N-vacancy-and Co/Mo-bimetallic-catalysts for tetracycline degradation through peroxymonosulfate activation: evolution of active substance [0.03%]
通过过硫酸氢盐活化降解四环素构建S/N-空位和Co/Mo双金属催化剂:活性物质演变
Jiaqi Yang,Yu Yang,Kexuan Gao et al.
Jiaqi Yang et al.
Regulation of the types and content of reactive oxygen species (ROS) in advanced oxidation processes (AOPs) is regarded as a challenging task. Herein, the features of sulfur-vacancy (Sv) and nitrogen-vacancy (Nv), and cobalt (Co)/molybdenum...
Efficient Peroxymonosulfate Activation over Cobalt-Encapsulated Nitrogen-Doped Carbon Hollow Nanospheres toward Tetracycline Degradation: Performance and Catalytic Mechanism [0.03%]
高效激活过一硫酸盐降解四环素:性能及催化机制研究二氧化碳固定氮掺杂空心球催化剂制备
Jin Qian,Sai Bai,Guoping Xiang et al.
Jin Qian et al.
In this study, cobalt-encapsulated nitrogen-doped carbon hollow nanospheres (Co@NCs) were synthesized for peroxymonosulfate (PMS) activation and tetracycline (TC) degradation. Co@NCs synthesized at a high pyrolysis temperature exhibited rel...
Fabrication of porous Cl-Nb2O5-x nanostructures with large surface areas for photodegradation of organic contaminant: Morphology evolution, performance, and mechanism [0.03%]
用于有机污染物光降解的大表面积多孔Cl-Nb2O5-x纳米结构的制备:形貌演变,性能和机理研究
Jiaxin Yao,Feng Gao,Yi Zhao et al.
Jiaxin Yao et al.
In this work, porous Cl-Nb2O5-x nanostructures were synthesized via a calcination method using NbCl5 as the niobium and chlorine sources to achieve efficient tetracycline degradation under visible-light irradiation....The remarkable enhancement in tetracycline degradation of the Cl-Nb2O5-x photocatalysts was mainly attributed to the generation of oxygen vacancies and porous structures with large surface areas.
Biochar-mediated carbon nitride and covalent organic framework photocatalyst for enhanced tetracycline degradation [0.03%]
生物炭介导的碳氮化物和共价有机框架光催化剂增强四环素降解性能
Qi Wei,Baojun Yi,Zewen Hua et al.
Qi Wei et al.
The accumulation of tetracycline (TC) poses a significant challenge to human health and ecological systems. Photocatalytic degradation of TC has been a focus of research, heterojunctions receiving particular attention due to their superior ...
Performance and mechanism of tetracycline degradation by CuCo2O4 nanomaterial activated periodate [0.03%]
铜钴氧化物活化高碘酸盐降解四环素的效能及机制研究
Peng Xu,Na Li,Jingwei Ma et al.
Peng Xu et al.
In this study, CuCo2O4 nanomaterials was used for periodate (PI) activation to degrade tetracycline (TC) for the first time. Scanning Electron Microscopy (SEM) and X-ray Diffraction (XRD) analyses confirmed the successful preparation of CuC...
Red mud-based magnetic biochar composite as a peroxydisulfate activator for tetracycline degradation [0.03%]
红泥基磁性生物炭复合材料活化过二硫酸盐降解四环素性能及机制研究
Chao Shen,Xinxin Dong,Jing Yang et al.
Chao Shen et al.
Red mud is the world's most extensively generated waste in the non-ferrous metal industry. Its utilization remains challenging, with disposal primarily relying on storage. Due to its strong alkalinity, it poses significant environmental ris...
Periodate activation for tetracycline degradation with MoS2/MnFe2O4 nanocomposite: Efficiency and Mechanistic insights [0.03%]
基于MoS₂/MnFe₂O₄纳米复合材料的 periodate活化降解四环素的效率及机制研究
Peng Xu,Na Li,Jiafan Yao et al.
Peng Xu et al.
In this study, a MoS2/MnFe2O4 nanocomposite was employed as a periodate (PI) activator for the first time, aiming to synergistically degrade tetracycline (TC). Three different ratios of MoS2/MnFe2O4 nanocomposites were synthesized using a s...
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