课题组导师介绍——袁月

2024-06-13 19:46   重庆  


袁 月
主要研究方向


1. 高原水污染控制技术及其资源化利用

2. 铁基催化材料的开发及其对污染物的去除

3. 基于白腐菌环境功能微生物的新污染物降解技术研发


联系方式


smileyuan1987@swun.edu.cn


个人经历

2021.1-至今,西南民族大学化学与环境学院副研究员

2017.7-2023.11,四川大学轻工科学与工程学院 博士后、副研究员

2012.9-2017.6 四川大学建筑与环境学院 环境工程博士

2007.9-2011.6 武汉理工大学资源与环境学院 环境学科学士


主要学术兼职


四川省水安全与水污染控制工程技术研究中心副主任

海天集团—全国循环经济技术中心副主任

四川省科技协同创新促进会碳中和专家委员会委员


代表性论文



(1)Lejie Pan, Yunxuan Hu, Zhixue Zhang, Yue Yuan*, Qinmei Zhong, Sheng-Tao Yang*, Reduced graphene oxide promotes the biodegradation of sulfamethoxazole by white-rot fungus Phanerochaete chrysosporium under cadmium stress, Water Research, 2024(256), 121558.
(2)Xin Li, Wanting Fu, Ruiqing Guan, Yue Yuan*, Qinmei Zhong, Gang Yao, Sheng-Tao Yang*, Liandong Jing, Song Bai, Nucleophiles promotes the decomposition of electrophilic functional groups of tetracycline in ZVI/H2O2 system: Efficiency and mechanism, Chinese Chemical Letters, 2024, 109625.
(3)Yue Yuan,Zhikui Zhou, Xinyi Zhang, Xin Li, Yulu Liu*, Shengtao Yang, Bo Lai*, Efficient reduction of hexavalent chromium with microscale Fe/Cu bimetals: Efficiency and the role of Cu, Chinese Chemical Letters, 34(2023)107932.
(4)Yue Gong, Lejie Pan, Huahui Yuan, Juncheng Li, Xin Li, Qian Chen, Yue Yuan*, Xian Wu,  Sheng-Tao Yang*, Porous carbon sponge from white-rot fungus Phanerochaete chrysosporiumfor the removal of oils and organic solvents, Materials, 16(2023)534.
(5)Yue Yuan, Zhengxian An, Renjing Zhang, Xinxing Wei, Bo Lai*, Efficiencies and mechanisms of heavy metals adsorption on waste leather-derived high-nitrogen activated carbon, Journal of Cleaner Production, 293(2021)126215.
(6)Zhaokun Xiong, Jiayi Li, You Li, Yue Yuan*, Yanni Jiang, Gang Yao, Bo Lai*, Simultaneously enhanced degradation of N, N-dimethylacetamide and reduced formation of iron sludge by an efficient electrolysis catalyzed ozone process in the presence of dissolved silicate, Journal of Hazardous Materials, 406 (2021), 124725.
(7)Yue Yuan, Zhengxian An, Qixian Zhang, Yunhong Zhang, Bi Shi*, Zhaokun Xiong, Bo Lai*, The Influence of Cu(II) Existence State on Characteristics, Reactivity, and Recyclability of Microscale Fe/Cu Bimetal. Industrial & Engineering Chemistry Research, 59(2020) 7310-7320.





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