环境科学与工程系 - 硕士生导师

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硕士生导师

李檬

发布时间：2020-12-03 访问量：

姓名：李檬

职称：教授

所在院系：环境科学与工程系

研究方向：Focus Area：

Ø 结构/功能纤维及其复合材料对环境污染物的荧光检测与去除(Structure/functional fibers and their composite materials for fluorescent detection and removal of pollutants)

Ø 污染物控制和绿色转化（ Pollution control and green conversion）

Ø 光电能源先进材料的设计与应用(Design and application of advanced photo-electric materials)

联系方式

办公地址：综合实验楼A214

电子邮箱：mli201509@163.com

办公电话：0312-7525514

个人简介及主要荣誉称号：

李檬，女，1988年9月生。 2011年在华东理工大学应用化学（精细化工）专业获得学士学位，以及辅修英语专业学士学位，同年保送华东理工大学应用化学专业硕博连读，师从朱为宏院士，2012年9月国家公派到英国巴斯大学攻读博士学位，师从Tony D. James教授，2015年7月在英国巴斯大学化学专业获得博士学位。2018年1月被聘为副教授。2021年10月作为意大利International Centre for Theoretical Physics(ICTP)的TRIL fellow前往的里雅斯特大学进行为期两个月的交流访问，并于2021年12月前往英国剑桥大学化学系 Jonathan R. Nitschke 课题组进行为期一年的交流学习访问。

主要从事污染物检测、控制及其资源化转化的研究工作，构建了吸附和检测一体化的基本技术，解决了大气、污水处理中的突出问题。近期重点工作为结构/功能纤维及其复合材料对污染物的检测与去除一体化，以及低碳资源化转化在大气、水污染控制和能源领域的研究。先后负责国家自然科学基金2项、河北省自然科学基金1项、国家外专项目1项，参与国家重点研发计划课题2项、北京市自然科学基金面上项目1项、河北省自然科学基金重点项目1项等，以第五完成人获得河北省自然科学一等奖1项。发表SCI论文50余篇,受邀参与撰写英国皇家化学会出版的英文专著2部，入选河北省“三三三人才工程”第三层次人才，燕赵人才A卡获得者。

教学与人才培养情况:

1.教学课程：

Ÿ 有机化学，2016年起，40学时，100人

ŸŸ电厂化学仪表与程控，2016-2018年，48学时，50人（本人讲32学时）

生物化学，2020年起，40学时，50人

主要科研项目情况

[1] 国家自然科学基金，基于光控策略氧化/富集一体化检测烟气汞的材料构筑与响应机制研究，2024.1-2027.12，50万，主持；

[2] 国家外专项目，重金属污染物检测控制及其光能资源化利，2021.1-2022.12，30万，主持；

[3] 国家自然科学基金，脱硫废水中重金属离子的荧光检测和分离一体化研究，2017.1-2019.12，20万，主持；

[4] 河北省自然科学基金，废水净化用新型纤维素薄膜荧光传感器的制备和机理研究，2017.1-2019.12，4万，主持；

[5] 国家重点研发计划课, 湿式氧化镁法多污染物协同控制与资源化工艺, 2018.7.1-2020.12，568万，参与；

[6] 国家重点研发计划课, 钴基亚硫酸镁氧化催化剂成型技术评价及制备, 2017.7.1-2020.12， 79万，参与；

[7] 北京市自然科学基金，银修饰纳米复合纤维膜环境应用及稳定性研究, 2018.1.-2020.12, 20万，参与。

代表性论著

[1] M. Li, J. Fossey and T. James. Boron: Sensing, Synthesis and Supramolecular Self-Assembly , Royal Society of Chemistry, 2015 (book editor)

[2] M. Li*, X. Li, Z. Chen, Aggregation-induced emission-based fluorescent systems, Fluorescent Chemosensors, Royal Society of Chemistry, 2023, 40-66 (book chapter)

[3] M. Li*, Q. Shi, N. Song, Y. Xiao, L. Wang, Z. Chen* and T. D. James*, Current trends in the detection and removal of heavy metal ions using functional materials, Chem. Soc. Rev ., 2023, 52, 5827-5860 (IF =""46.200)

[4] M. Li*, Q. Shi, N. Song, Z. Chen, L. Wang, T. D. James*, Self-assembled artificial light-harvesting system constructed using electrostatic interactions in aqueous solution for the sensing of heavy metal cations, Adv. Opt. Mater. , 2023, 202203079 (IF =""10.050)

[5] M. Li*, M. Xu, H. Wang, S. Liu, Y. Xiao, L. Wang, T. D. James*, Constructing a solar evaporator by stacking exhausted wood sponges for freshwater generation and fertilizer recovery, ChemSusChem , 2023, 16, e202300426 (IF =""9.140)

[6] M. Ge, S. Liu, J. Li, M. Li*, S. Li*, T. D. James*, Z. Chen*, Luminescent materials derived from biomass resources, Coordin. Chem. Rev. , 2023, 477, 214951-214951. (corresponding author, IF =""24.833)

[7] M. Li, B. Liu, Z. Liu*, Y. Xiao, H. Guo, Z. An, L. Wang, T. D. James*, Reducing heat conduction enhances the photothermal efficiency of upcycled adsorbents, Adv. Funct. Mater. , 2023, 33, 2209987. (IF =""19.924)

[8] X. Li, M. Li*, Q. Shi, H. Guo, L. Wang, Xi. Guo, Z. Chen*, J. L. Sessler, H. Xiao, T. D. James*, Exhausted Cr(VI) sensing/removal aerogels are recycled for water purification and solar-thermal energy generation, Small , 2022, 18, 2201949. (corresponding author, IF =""15.153)

[9] M. Li,* B. Liu, H. Guo, H. Wang, Q. Shi, M. Xu, M. Yang, X. Luo, and L. Wang*, Reclaimable MoS2 sponge absorbent for drinking water purification driven by solar energy, Environ. Sci. Technol. , 2022, 56, 11718-11728. (IF =""11.357)

[10] L. Xing‡, M. Li‡, M. Li, T. Xu, Y. Li, T. Qi, H. Li, Z. Hu, G. Hao, S. Zhang, T. D. James, B. Mao* and L. Wang*, MOF-derived robust and synergetic acid sites inducing C–N bond disruption for energy-efficient CO2 desorption, Environ. Sci. Technol. , 2022, 56, 24, 17936-17945 (IF=""11.357)

[11] M. Yang, H. Li, J. Shen, S. Li, S. Liu, J. Li, Z. Chen*, M. Li*, T. D. James*, Repurposing lignin to generate functional afterglow paper, Cell Rep. Phys. Sci. , 2022, 3, 100867. (IF =""7.832)

[12] X. Liu‡, M. Li‡, X. Li‡, M. Ge, S. Liu, S. Li, J. Li, J. Ding, A. J. Ragauskas6, W. Sun*, T. D. James*, and Z. Chen*, A photosensitive sustainable lignin nanoplatform for multimodal image-guided mitochondria-targeted photodynamic and photothermal therapy, Mater. Chem. Today , 2022, 26, 101000 (IF=""7.613)

[13] M. Li*, M. Xu, Q. Shi, H. Wang, H. Guo, L. Wang* and T. D. James, An upcycled wood sponge adsorbent for drinking water purification by solar steam generation, Environ. Sci. Nano , 2022, 9, 2559-2571（IF =""9.473）

[14] L. Xing, M. Li*, T. Qi, L. Mao, Z. Hu, E. Zhang, G. Hao, B. Mao* and L. Wang*, Construction of confined bifunctional 2D material for efficient sulfur resource recovery and Hg2+ adsorption in desulfurization, Environ. Sci. Technol. , 2022, 56, 4531-4541(corresponding author, IF=""11.357)

[15] M. Li*, M. Yang, B. Liu, H. Guo, H. Wang, X. Li, L. Wang and T. D. James*, Self-assembling fluorescent hydrogel for highly efficient water purification and photothermal conversion, Chem. Eng. J. , 2022, 431, 134245 (IF = 16.744)

[16] M. Li*, Q. Li, M. Xu, B. Liu, D. G. Calatayud, L. Wang, Z. Hu, T. D. James and B. Mao*, Amphiphilic engineering of reduced graphene oxides using a carbon nitride coating for superior removal of organic pollutants from wastewater, Carbon , 2021, 184, 479-491. (IF = 11.307)

[17] M. Li*, X. Li, M. Xu, B. Liu, M. Yang, Z. Chen*, S. Wang, T. D. James, L. Wang and H. Xiao, A ratiometric fluorescent hydrogel of controlled thickness prepared continuously using microtomy for the detection and removal of Hg(II), Chem. Eng. J. , 2021, 426, 131296. (IF = 16.744)

[18] L. Zhang, L. Xing, J. Liu, T. Qi, M. Li, L. Wang*, Synchronous catalysis of sulfite oxidation and abatement of Hg2+ in wet desulfurization using one-pot synthesized Co-TUD-1/S, Sep. Purif . Technol . , 2021, 266, 118546. (IF= 9.136)

[19] M. Li, M. Yang, and W. Zhu, Advances in fluorescent sensors for β-galactosidase, Mater. Chem. Front. , 2021, 5, 763-774. (IF = 8.683)

[20] M. Li*, X. Li, M. Jiang, X. Liu, Z. Chen*, S. Wang, T. D. James, L. Wang and H. Xiao, Engineering a ratiometric fluorescent sensor membrane containing carbon dots for efficient fluoride detection and removal, Chem. Eng. J. , 2020, 399, 125741. (corresponding author, IF= 16.744)

[21] X. Li, M. Li*, M. Yang, H. Xiao, L. Wang, Z. Chen, S. Liu, J. Li, S. Li*, T. D. James*, “Irregular” aggregation-induced emission luminogens, Coordin. Chem. Rev. , 2020, 418, 213358. (corresponding author, IF= 24.833)

[22] L. Wang, Z. Zhang, M. Li*, B. Wang, Q. Li, S. Wang, H. Zhou*, B. Mao*, Surface Engineering of Porphyrin Coordination on a Carbon Nanotube for Efficient Hydrogen Evolution, ChemCatChem , 2020, 12, 2469-2477. (corresponding author, IF= 5.497)

[23] M. Li, B. Wang, M. Yang, Q. Li, D. G. Calatayud, S. Zhang, H. Wang, L. Wang*, Boyang Mao*, Promoting mercury removal from desulfurization slurry via S-doped carbon nitride/graphene oxide 3D hierarchical framework, Sep. Purif . Technol . , 2020, 239, 116515. (IF= 9.136)

[24] M. Li, Q. Guo, L. Xing, L. Yang, T. Qi, P. Xu, S. Zhang and L. Wang*, Cobalt-based metal-organic frameworks promoting magnesium sulfite oxidation with ultrahigh catalytic activity and stability, J . C olloid I nterface S ci . , 2020, 559, 88-95. (IF= 9.965)

[25] M. Li, X. An, M. Jiang, S. Li, S. Liu, Z. Chen* and H. Xiao*, “Cellulose spacer” Strategy: Anti-aggregation-caused Quenching Membrane for Mercury Ion Detection and Removal, ACS Sustain. Chem. Eng. , 2019, 7, 15182-15189. (IF= 9.224)

[26] M. Li*, X. Li, X. An, Z. Chen* and H. Xiao*, Clustering-triggered emission of carboxymethylated nanocellulose, Front . Chem . , 2019, 7, 447. (corresponding author, IF=""5.545)

[27] M. Li, B. Wang, X. An, Z. Li, H. Zhu, B. Mao*, D. G. Calatayud* and Tony. D. James*, A practical graphitic carbon nitride (g-C3N4) based fluorescence sensor for the competitive detection of trithiocyanuric acid and mercury ions, Dyes and Pigments , 2019, 170, 107476. (IF= 5.122)

[28] J. Yang, K. Gu, C. Shi, M. Li, P. Zhao* and W. Zhu*, Fluorescent thermometer based on a quinolinemalononitrile copolymer with aggregation-induced emission characteristics, Mater. Chem. Front. , 2019, 3, 1503-1509. (IF= 8.683)

[29] M. Li, T. Qi, R. Yang, H. Xiao, Z. Fang, S. A. Hodge, T. D. James, L. Wang*, B. Mao*, Promoting magnesium sulfite oxidation by partly oxidized metal nanoparticles on graphitic carbon nitride (g-C3N4) in the magnesia desulfurization process, J. Mater. Chem. A , 2018, 6, 11296-11305. (IF= 14.511)

[30] M. Li, Z. Liu, S. Wang, D. G. Calatayud, W. Zhu, Tony. D. James*, L. Wang*, B. Mao* and H. Xiao*, Fluorescence detection and removal of copper from water using a biobased and biodegradable 2D soft material, Chem . Commun . , 2018, 54 (2) ,184-187. (IF= 6.065)

[31] M. Li, Z. Liu, H. Wang, A. C. Sedgwick, J. E. Gardiner, S. D. Bull, H. Xiao* and T. D. James*, Dual-function cellulose composites for fluorescence detection and removal of fluoride, Dyes and Pigments , 2018, 149, 669. (IF= 5.122)

[32] M. Li, Y. Wang, X. Hou, X. Wan, H. Xiao*, DMC-grafted cellulose as green-based flocculants for agglomerating fine kaolin particles, Green Energy Environ. , 2018, 3(2), 138-146. (IF= 12.781)

[33] X. Zhang, G. Ko, J. F. Joung, M. Li, Y. Jeong, K. M. K. Swamy, D. Lee, Y. Liu, S. Lee*, S. Park*, T. D. James* and J. Yoon*, A naphthoimidazolium-cholesterol derivative as a ratiometric fluorescence based chemosensor for the chiral recognition of carboxylates, Chem. Commun. , 2018, 54, 13264. (IF= 6.065)

[34] L. Wang*, Y. Zhang, R. Wang*, Q. Li, S. Zhang, M. Li, J. Liu, B. Chen, Advanced monoethanolamine absorption using sulfolane as a phase splitter for CO2 capture, Environ. Sci. Technol, 2018, 52, 24, 14556-14563. (IF= 11.357)

[35] T. Qi, L. Wang*, S. Wu, Q. Li, J. Liu, M. Li, H. Xiao*, Insight into structural role of 2D/3D mesoporous silicon in catalysis of magnesium sulfite oxidation, Appl. Catal. A-Gen. , 2018, 566, 33-43. (IF=""" 5.723)

[36] J. Yang, M. Li, Z. Zhu, Dicyanomethylene-4H-pyran-based NIR fluorescent ratiometric chemosensor for pH measurement, Res . Chem . Intermediat . , 2018, 44, 3959-3969. (IF=""3.134)

[37] L. Wang, D. Qi, G. Zhang, D. Li, T. Qi, J. Liu, M. Li, Y. Ma, Kinetics of magnesium sulfite oxidation catalyzed by cobalt using a straw/sludge substrate as support, Environ . Progress & Sustain . Energy , 2018, 38, 201-207.(IF=""" 2.824)

[38] M. Li*, X. Li, H. Xiao*, T. James*, Fluorescence sensing with cellulose-based materials, ChemistryOpen . 2017, 6, 685-696. (corresponding author, IF=""2.630)

[39] M. Li*, H. Ge*, V. Mirabello, R. L. Arrowsmith, G. Kociok-Kohn, S. W. Botchway, W. Zhu*, S. I. Pascu*, T. D. James*. Lysosomal tracking with a cationic naphthalimide using multiphoton fluorescence lifetime imaging microscopy, Chem . Commun . , 2017, 53, 11161-11164. (corresponding author , IF= 6.065)

[40] M. Li, Z. Liu, L. Wang, T. James, H. Xiao*, W. Zhu*. A glutamic acid-modified cellulose fibrous composite used for the adsorption of heavy metal ions from single and binary solutions, Mater. Chem. Front. , 2017, 1, 2317-2323. (IF= 8.683)

[41] J. Yang †, M. Li †, L. Kang, W. Zhu*, luminescence molecular switch via modulation of PET and ICT processes in DCM system, Sci. China Chem. , 2017,60, 607-613. (equally contributed first author, IF= 10.138)

[42] L. Wang, S. An, S. Yu, S. Zhang, Y. Zhang, M. Li, Q. Li, Mass transfer characteristics of CO2 absorption into a phase-change solvent in a wetted-wall column, Int . J . Greenh . Gas Con . , 2017, 64, 276-283. (IF=""" 4.400)

[43] H. Li, A. C. Sedgwick, M. Li, R. A. R. Blackburn, S. D. Bull, S. Arbault, T. D. James*, N. Sojic*, Selective electrochemiluminescent sensing of saccharides using boronic acid-modified coreactant, Chem. Commun. , 2016, 52, 12845-12848. (IF= 6.065)

[44] M. Li, W. Zhu, F. Marken* and T. D. James*, Electrochemical sensing using boronic acids, Chem . Commun . , 2015, 51 (78), 14562-14573. (IF= 6.065)

[45] M. Li, S. Xu, A. Gross, J. Hammond, P. Estrela, J. Weber, K. Lacina, T. James and F. Marken*, Ferrocene-boronic acid-fructose binding based on dual-plate generator-collector voltammetry and square-wave voltammetry, ChemElectroChem , 2015, 2 (6), 867-871. (IF= 4.782)

[46] M. Li, Z. Guo, W. Zhu*, T. D. James*, F. Marken*, A redox-activated fluorescence switch based on a ferrocene-fluorophore-boronic ester conjugate, Chem . Commun . , 2014, 51 (7), 1293-1296. (IF= 6.065)

[47] M. Li, G.E.M. Lewis, T. D. James, Y. Long, B. Kasprzyk-Hordern, J. M. Mitchels, F. Marken*, Oil|Water Interfacial Phosphate Transfer Facilitated by Boronic Acids -Observation of Unusually Fast Oil|Water Lateral Charge Transport, ChemEletroChem. 2014.1.1640-1646. (IF= 4.782)

[48] M. Li, H. Ge , R. L. Arrowsmith, V. Mirabello , S. W. Botchway, W. Zhu, S. I. Pascu*, and T. D. James*, Ditopic boronic acid and imine-based naphthalimide fluorescence sensor for Copper(II), Chem . Commun . 2014, 50, 11806-11809. (IF= 6.065)

[49] M. Li, X. Wu, Y. Wang, Y. Li, W. Zhu* and T. D. James*, A near-infrarecolorimetric fluorescent chemodosimeter for the detection of glutathione in living cells, Chem. Commun. , 2014, 50, 1751-1753. (IF= 6.065)