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姓 名 |
李雪梅 |
性 别 |
女 |
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出生年月 |
1991年8月 |
专业职称 |
副教授 |
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学 历 |
博士研究生 |
学 位 |
博士 |
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所在学院 |
中国·yl23411(永利)集团官网-Green Moving Future |
行政职务 |
化学系副主任 |
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电子邮箱 |
1021880721@qq.com |
联系方式 |
18626613280 |
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个人经历 |
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教育经历 2011.09~2015.06 唐山师范学院,化学,大学本科 2015.09~2020.06 吉林大学,分析化学,博士研究生(硕博连读) 工作经历 2020.07~2023.10吉林化工学院,永利yl23411集团官网,讲师 2023.10~至今 吉林化工学院,永利yl23411集团官网,副教授 |
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人才称号及主要社会兼职 |
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吉林省E类人才称号 |
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研究方向 |
新型超交联聚合物的合成及其碘吸附性能研究 |
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研究方向简介 |
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研究方向一: 放射性碘是核事故发生时的必然产物之一,为了防止其对人类和环境造成危害,需要对放射性碘进行处理。目前,处理放射碘最主要的方法为固体吸附法,因此,合成经济并且高效的放射性碘吸附剂是该项技术最核心的挑战。本方向旨在合成一系列含有碘亲和位点的超交联聚合物固体吸附剂,并且深入研究聚合物的孔径与吸附能力之间以及吸附剂与吸附质之间的作用关系。 |
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在研项目 |
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1. 微孔/介孔多层次结构咪唑离子液体类超交联聚合物的构建及其快速吸附放射性碘的研究,国家青年科学基金项目,30万元(2023-2025)22206055 |
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已完成项目 |
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1. 多级孔道与作用位点协同的超交联聚合物的构建及其放射性碘吸附研究,校级重大,3万元(2022-2024) 2. 多层次孔结构超交联聚合物的设计及其碘吸附性能与机理的研究,博士启动经费,5万元(2021--2023) 3. 基于处理放射性碘的双孔道磁性超交联聚合物的制备与研究,校级一般项目,1.38万元(2021-2022) 4. 超交联咪唑离子液体聚合物的制备及其对放射性碘离子的吸附研究,吉林省教育厅一般项目,2.5万元(2023-2025)JJKH20230289KJ |
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发表论文 |
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1. Efficient and Selective Removal of Iodine in Aqueous Media Using Morphology-Controlled Porous Hyper-Cross-Linked Polymers ACS Appl Polym Mater, 2025, 7, 3, 1639–1650 (SCI, IF=4.7) https://doi.org/10.1021/acsapm.4c03399 2. Constructing a magnetic ionic covalent organic polymer through post-synthesis functionalization approach for efficient iodine/iodide adsorption. New J Chem, 2025, 49, 3536-3544 https://doi.org/10.1039/D4NJ05202A (SCI, IF=2.7) 3. Synthesis of magnetic-responsive imidazole-based poly (ionic liquid) s as a recycle adsorbent for simultaneously removing iodine molecules and iodide ions, Sep Purif Technol, 2024, 335: 126210. (SCI, IF=9.0) https://doi.org/10.1016/j.seppur.2023.126210 4. Construction of hypercrosslinked polymers with dual nitrogen-enriched building blocks for efficient iodine capture, Sep Purif Technol, 2020, 236, 116260. (SCI, IF=9.0) 5. A versatile solvent-induced polymerization strategy to synthesize free-standing porous polymer nanosheets and nanotubes for fast iodine capture, ACS Appl Mater Interfaces, 2019, 11, 46205-46211. (SCI, IF=8.2) 6. Task-specific synthesis of cost-effective electron-rich thiophene-based hypercrosslinked polymer with perylene for efficient iodine capture. Sep Purif Technol, 2019, 228, 115739. (SCI, IF=9.0) 7. Pyrrolidinone-based hypercrosslinked polymers for reversible capture of radioactive iodine. Sep Purif Technol, 2019, 210, 995-1000. (SCI, IF=9.0) 8. One-pot synthesis of viologen-based hypercrosslinked polymers for efficient volatile iodine capture. Micropor Mesopor Mater, 2019, 279, 186-192. (SCI, IF=4.7) 9. Design of a hyper-crosslinked β-cyclodextrin porous polymer for highly efficient removal toward bisphenol a from water. Sep Purif Technol, 2018, 195, 130-137. (SCI, IF=9.0) 10. Highly efficient iodine capture by task-specific polyethylenimine impregnated hypercrosslinked polymers. J Taiwan Inst Chem E, 2018, 93, 660-666 (SCI, IF=6.3) 11. A water-insoluble viologen-based β-cyclodextrin polymer for selective adsorption toward anionic dyes. React Funct Polym, 2018, 126, 20-26. (SCI, IF=5.1) 12. Design of a ruthenium(III) immobilized affinity material based on β-cyclodextrin-functionalized poly(glycidyl methacrylate-ethylene dimethacrylate) monolith for the enrichment of hippuric acid. J Sep Sci, 2017,40, 3696-3702. (SCI, IF=2.878) 13. Cloud point extraction of rare earths and zinc using 1,10-phenanthroline and Triton X-114 coupled with microwave plasma torch-atomic emission spectrometry, Anal Methods, 2017, 9, 5333-5338. (SCI, IF=2.6) 14. Constructing imidazole-based ionic hyper-cross-linked polymers with tunable nanostructures and their application in radioactive iodine removal, J. Environ. Chem. Eng. 2025,3, 117177. (SCI, IF=7.2) |
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获奖成果及专利 |
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获奖成果: 无 专利 无 |
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出版专著 |
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无 |
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指导研究生情况 |
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指导2022级研究生一名 指导2023级研究生两名 指导2024级研究生两名 |
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备注 |
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无 |
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