代表性科研项目(10项) :
1.国家自然科学基金,稀散金属离子印迹聚合物的可控制备及选择性分离特性与作用机制,51708075 ,
2018.01~2020.12,主持
2.国家重点研发计划子课题,低浓度含锂废水选择性提锂技术与工程示范,2023.12~2027.11,主持
3. 中国博士后科学基金特别资助,基于路易斯碱性调控多尺度结构纳米纤维及对In3+选择性分离,
2021T140625 ,2021~2021 ,主持
4.重庆市教委重点研究项目,纤维基多识别位点离子印迹复合物选择性吸附In(III)与应用研究,KJZD-
K202101502 ,2021.09~2024.08,主持
5.重庆市自然科学基金,氧化石墨烯基离子印迹材料的制备及对铟离子选择性分离与作用机制,
cstc2019jcyj-msxmX0401 ,2019.07~2022.06,主持
6. 中国博士后科学基金面上资助,纤维基多识别位点离子印迹复合物对In3+靶向分离,2020M673111 ,
2020~2021,主持
7.重庆市博士后基金特别资助,ITO刻蚀液中In3+的绿色回收技术,2019.11~2020.11,主持
8.企业委托项目, 基于静电纺丝制备纤维基吸附材料及对[Ag(S2O3)2]3- 吸附性能及其应用研究,
2022.05~2024.04,主持
9.企业委托项目,含铬废水深度处理及资源化利用技术,2022.09~2023.12,主持
10.企业委托项目,含镍电镀废水、污泥制备高纯镍盐工艺开发,2023.09~2024.12,主持
代表性学术成果(10项) :
1.Li, M, et al., Deep Separation between In(III) and Fe(III) Ions by Regulating the Lewis Basicity of Adsorption Sites on Electrospun Fibers. Advanced Functional Materials,2023,34:2313443.(中科院一区,IF:19.0)
2.Li, M, et al., Adsorption of Pd(II) ions by electrospun fibers with effective adsorption sites constructed by N, O atoms with a particular spatial configuration: Mechanism and practical applications. Journal of Hazardous Materials, 2023,458: 132014. (中科院一区,IF:13.6)
3.Li, M, et al., A nanofiber with a p-π conjugated structure designed based on the Jahn-Teller effect for the removal of cupric tartrate from wastewater. Journal of Colloid and Interface Science, 2023,650: 161- 168. (中科院一区,IF:9.9)
4.P. Shao, Z. Chang, M. Li*, X. Lu, W. Jiang, K. Zhang, X. Luo, and L. Yang, Mixed-valence molybdenum oxide as a recyclable sorbent for silver removal and recovery from wastewater. Nature Communications,2023,14(1): 1365(中科院一区,IF:16.7)
5.N. Cheng, L. Zhang, M. Wang, J. Shu, P. Shao, L. Yang, X. Meng, Y. Fan, M. Li*, Highly effective recovery of palladium from a spent catalyst by an acid- and oxidation-resistant electrospun fibers as a sorbent.
Chemical Engineering Journal,2023,466:43171. (中科院一区,IF:15. 1)
6.L. Zhang, B. Zhao, L. Wang, P. Shao, L. Yang, C. Zhao, L. Wang, J. Yang, H. Yang, M. Li*, Regulating the electronic microenvironment of adsorption sites in nanofiber for promoting In(III) capture performance.Separation and Purification Technology, 2024,332:125880. (中科院一区,IF:8.6)
7.Li, M*, et al., A novel nanocomposite based silica gel/graphene oxide for the selective separation and recovery of palladium from a spent industrial catalyst. Chemical Engineering Journal, 2020,386:123947. (中科院一区,IF:15. 1)
8.李敏等,一种从含钯废催化剂中回收钯的方法,ZL201810562152.9
9.李敏等,一种选择性分离铟的吸附材料及制备方法,ZL201810562151.4
10.高选择性吸附材料设计与开发及在稀贵金属回收中的应用, 中国化工学会科学技术二等奖,第一完成人,2021
硕士研究生招生专业:化学、环境工程;欢迎具有扎实化学功底且热爱科研的学生报考本课题组硕士研究生!欢迎在读本科生来实验室参与实验和完成毕业论文!欢迎同学来实验室(K705、K707)了解具体情况!