姓名
王亚蕊
职称
讲师
电子邮箱
wangyarui@htu.edu.cn
个人简介
2022年6月博士毕业于中国科学院生态环境研究中心环境科学专业。2023年4月进入环境学院工作。发表SCI论文数10余篇,以第一作者发表SCI论文4篇。
研究领域
光催化技术去除难降解有机污染物及过程机理研究
主持或参加科研项目情况
1、国家自然科学基金面上项目,基于氧空位动态调控的全氟羧酸光催化降解研究及其机制探讨,22176197,参与
2、高原深水湖泊抚仙湖有机质积累对水体“黑色浮沫”灾害的激发机制研究41877482,参与
3、深水抚仙湖沉积物有机质矿化对界面磷再生的驱动机制,41471075,参与
学术成果
代表性论文:
(1) Yarui Wang, Fengjie Chen, Wanchao Yu, Lixia Zhao*, An efficient floating adsorption-photocatalyst to decarboxylate D-Glu and D-MeAsp of Microcystin-LR via holes direct oxidation. Chem. Eng. J. 2020, 127543.
(2) Yarui Wang, Muhua Feng*, Jianjun Wang, Xinfang Chen, Xiangchao Chen, Xian Du, Fan Xun, Bryne Tendelo Ngwenyae,Algal blooms modulate organic matter remineralization in freshwater sediments: A new insight on priming effect. Sci. Total Environ. 2021, 147087.
(3) Yarui Wang, Wanchao Yu, Fanglan Geng, Lixia Zhao*, Yawei Wang, TiO2@MOF Photocatalyst for the Synergetic Oxidation of Microcystin-LR and Reduction of Cr(VI) in Aqueous Media. Catalysts. 2021, 11(10), 1186
(4) Yarui Wang, Chengzhuo Yu, Sen Wang, Jin Xu, Fanglan Geng, Silong Wang, Jitao Lv, Lixia Zhao*, Yawei Wang. Coating TiO2with MIL-101(Fe) to decarboxylate D-Glu and D-MeAsp of Microcystin-LR from HA-Rich Water: diminishing the inhibitory effect of humic acids. Chem. Eng. J. 2023.145320
(5) Wanchao Yu, Jin Xu, Fengjie Chen,Yarui Wang, Shanshan Tang, Fanglan Geng, Jitao Lv, Guangbo Qu, Lixia Zhao*, Yawei Wang, Unexpected Persistent Production of Reactive Oxygen Species during the Degradation of Black Phosphorous in the Darkness. Angew. Chem. Int. Edit. 2022, 13595
(6) Feifei Li, Shanshan Tang, Jitao Lv*, Anen He,Yarui Wang, Shuting Liu, Huiming Cao, Lixia Zhao, Yawei Wang*, Guibin Jiang, Molecular-Scale Investigation on the Formation of Brown Carbon Aerosol via Iron-Phenolic Compound Reactions in the Dark, Environ. Sci. Technol. 2023, 57, 30, 11173–11184
(7) Fengjie Chen, Anen He,Yarui Wang, Wanchao Yu, Haoze Chen, Fanglan Geng, Zhunjie Li, Zhen Zhou, Yong Liang, Jianjie Fu, Lixia Zhao*, Yawei Wang, Efficient Photodegradation of PFOA over Sphere BiOBr Modified nano-TiO2: Hole-remained Oxidation Mechanism and Potential Application. Chemosphere. 2022, 134176