许春华教授
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- [1] 张越. Dominant pathways of FeSx formation and evolution during sulfidation of zero-valent iron by different sulfur agents. Separation and Purification Technology, 2023.
- [2] 王晓. Remediation of Cr(VI)-contaminated soil by sulfidated zero-valent iron: The effect of citric acid as eluant and modifying agent. Chemosphere, 313, 2022.
- [3] 王晓. Deep learning algorithms in predicting Cr(VI) removal performance of S-ZVI: Models building and optimal parameters prediction. Separation and Purification Technology, 330, 2023.
- [4] 瞿冠军. Regulating the FeSx assembly pattern of sulfidated zero-valent iron: All-in-one interface modulation with activated carbon. Water Research , 248, 2023.
- [5] 张越. A bifunctional nanocrystal surface: Integration of slow release of copper cations and providing active catalytical sites. Water Cycle, 3, 143-150, 2022.
- [6] 李凤敏. Research Progress on Structural Characteristics, Structure-Application Relationships, and Environmental Application of Biochar-Supported Zero Valent Iron (ZVI-BC). CURRENT POLLUTION REPORTS, 9, 292-311, 2023.
- [7] 段仲恺. Unveiling the enhancement of sulfidation for Fe(IV) production in a sulfidated microscale zero-valent iron activated peroxydisulfate process. Chemical Engineering Journal, 457, 2023.
- [8] Zhan, Xiao. [Coagulation and adsorption on treating the Yellow River and the impact on chlorine decay during chlorination process].. 环境科学 , 31, 1198-205, 2010.
- [9] 张越. Chemical Bond Bridging across Two Domains: Generation of Fe(II) and In Situ Formation of FeS<sub> <i>x</i> </sub> on Zerovalent Iron. Environmental Science & Technology, 57, 11336, 2023.
- [10] 李凤敏. Phase evolution of the surface iron (hydr)oxides to the iron sulfide through anion exchange during sulfidation of zero valent iron. JOURNAL OF HAZARDOUS MATERIALS, 127486, 2021.
- [11] 李凤敏. Research progress on structural characteristics, structure-application relationships, and environmental application of biochar-supported zero valent iron (ZVI-BC). CURRENT POLLUTION REPORTS, 292, 2023.
- [12] 张堰实. Nitrogen modification enhances conductivity and reactivity of sulfidated zero-valent iron: Mechanism and Cr(VI) removal. JOURNAL OF CLEANER PRODUCTION, 139266, 2023.
- [13] 段仲恺. Unveiling the enhancement of sulfidation for Fe(IV) production in a sulfidated microscale zero-valent iron activated peroxydisulfate process. Chemical Engineering Journal, 2022.
- [14] 王亚浩. 膨润土负载硫化纳米零价铁去除对硝基苯酚的研究. 《环境污染与防治》, 41, 329-333, 2019.
- [15] 王志伟. Reaching beyond the sulfided surface: Doping of copper cation to expand the pH tolerance range for SZVI. Chemical Engineering Journal, 429, 2019.
- [16] 许春华. Evaluation of dynamic membrane formation and filtration models at constant pressure in a combined coagulation/dynamic membrane process in treating polluted river water. Water Science and Technology: Water Supply, 13, 286-293, 2013.
- [17] 曹百川. 聚合硅酸硫酸铁和聚合硫酸铁处理黄河水的效果及其絮体特性研究. 中国科学B辑:化学(英文版), 40, 399-406, 2010.
- [18] 许春华. Phase evolution of the surface iron (hydr)oxides to the iron sulfide through anion exchange during sulfidation of zero valent iron. Journal of Hazardous Materials,
- [19] 许春华. Reaching beyond the sulfided surface: Doping of copper cation to expand the pH tolerance range for SZVI. chemical engineering journal,
- [20] 王晓. Advances in metal(loid) oxyanion removal by zerovalent iron: Kinetics, pathways, and mechanisms. CHEMOSPHERE Journal, 280, 2021.