李仕龙,男,博士,校聘副教授。博士毕业于南京工业大学化学工程与技术专业,曾赴瑞士洛桑联邦理工大学(EPFL,QS2025世界大学排名第26)联合培养。目前在化工与膜科学领域权威期刊上共发表SCI学术论文25篇;以第一(共一)/通讯作者在ACS Nano、Journal of Membrane Science、Chemical Engineering Journal、Industrial Engineering Chemistry Research、Separation and Purification Technology等期刊发表10篇(其中4篇中国科学院1区);主持及参与4项国家级、省部级科研项目;获授权国家发明专利1项;曾获博士研究生国家奖学金、国家公派留学奖学金等省部级以上奖励与荣誉十余次;并担任Desalination、Separation and Purification Technology等多个SCI期刊的审稿人。研究方向为“面向高效分离与催化协同的新型膜材料设计:二维/无机膜微结构精准调控及水处理与能源化工应用”,欢迎对相关研究方向感兴趣的本科生或者硕士生加入团队。
邮箱:lishilong@jgsu.edu.cn
主讲课程:
主要承担化学工程基础等课程。
主要研究方向:
1. 基于有机/无机多孔载体的新型分离膜在水处理领域的应用
2. 面向极端环境下高性能分离膜材料开发
3. 催化功能分离膜设计与有机废水处理应用
4. 多孔膜在化工过程强化中的应用(膜乳化、金属离子萃取)
主持或参与课题:
1.井冈山大学博士科研启动项目,主持
2.国家建设高水平大学公派研究生项目,“Precise construction of biomimetic ion-selective nano-channels based on porous two-dimensional material membranes”,主持
3.国家重点研发子课题,“射流乳化功能膜材料规模化制备及应用技术”,参与
4.江苏省重点研发,“生物重油乳化及其CO2循环利用技术”参与(课题骨干)
近5年代表性成果:
1. Li S1, Guan K1, Zhou D, Zou D, Lu J, Jiang W, Chen B, Qiu J, Cui L, Yu T, Sun Y*, Xu Z, Jin W, Jing W*. Lattice vacancy-anchored perforation of 2D MXenes for crafting nanochannel membranes with spontaneous multi-level features[J]. ACS nano, 2025, 19: 5178-5192.(中国科学院,一区,TOP,IF=15.8)
2. Li S, Lu J, Zou D, Cui L, Chen B, Wang F, Qiu J, Yu T, Sun Y*, Jing W*. Constructing reduced porous graphene oxide for tailoring mass-transfer channels in ultrathin MXene (Ti3C2Tx) membranes for efficient dye/salt separation[J]. Chemical Engineering Journal, 2023, 457: 141217.(中国科学院,一区,TOP,IF=13.4)
3. Li S1, Wei Y1, Guan K, Yuan C, Jiang W, Zou D, Zhao C, Lu J, Chen B, Qiu J, Xu J, Yu T, Sun Y, Cui L*, Jing W*. Inorganic nanosheet-engineered ceramic membranes with tunable pore structures for monodisperse and stable emulsions[J]. Journal of Membrane Science, 2025: 124155.(中国科学院,一区,TOP,IF=8.4)
4. Li S, Gu W, Sun Y, Zou D, Jing W*. Perforative pore formation on nanoplates for 2D porous MXene membranes via H2O2 mild etching[J]. Ceramics International, 2021, 47: 29930-29940.(中国科学院,二区,TOP,IF=5.1)
5. Wang J, Li S*, Guan K, Zou D*. Photocatalytic membranes for water treatment of micropollutants: Current status and future prospects[J]. Desalination, 2026: 119980.(中国科学院,二区,TOP,IF=9.2)
6. Chai L1, Li S1, Tao R, Jiang Y, Cui L, Lu J, Sun Y, Jing W*. Biomimetic nanoconfined catalytic ozonation membranes with abundant and robust V-shaped nanopores for rapid pollutant degradation[J]. Separation and Purification Technology, 2025: 133063.(中国科学院,二区,TOP,IF=8.2)
7. Jiang Y1, Li S1, Chai L, Cao S, Zhu R, Liu X, Guo Y, Jing W*. Tailoring emulsification-functional SnO2-Metal composite membranes with robust blade-shaped pore walls for uniform and size-controlled metal microspheres[J]. Industrial & Engineering Chemistry Research, 2025, 64, 10873-10882.(中国科学院,三区,IF=3.8)
8. Zhou D1, Li S1, Chai L, Lu J, Yu T, Sun Y*, Jing W*. Constructing fast mass-transfer channels with efficient catalytic ozonation activity in 2D manganese dioxide membranes by intercalating Fe/Mn bimetallic MOF[J]. Chinese Journal of Chemical Engineering, 2024, 74: 272-286.(中国科学院,三区,IF=3.7)
9. Shen R1, Li S1, Sun Y, Bai Y, Lu J, Jing W*. Flower-like tin oxide membranes with robust three-dimensional channels for efficient removal of iron ions from hydrogen peroxide[J]. Chinese Journal of Chemical Engineering, 2024, 65: 1-7.(中国科学院,三区,IF=3.7)
10. Liu S, Li X, Xiong Y, Wang T, Pan C, Liu C, He P, Li S*. Insights into efficient activation of H2O2 by sulfur-doped CuFeO2: Important role of sulfur and sulfamethoxazole oxidation, 2026, (major revision).
