李晨蔚,教授,博士生導師,泰山學者青年專家
李晨蔚,博士,泰山學者青年專家,山東第一醫科大學化學與制藥工程學院教授/博導。2016年于中國科學院化學研究所取得博士學位。2016-2021年任教于青島大學材料學院,2021年6月加入山東第一醫科大學化學與制藥工程學院,入駐濟南校區科創中心,并組建“石墨烯功能復合材料”研究團隊。目前團隊由1名教授、2名副教授和1名博士后構成。主要研究高力學性能石墨烯氣凝膠的制備及其在太陽能海水淡化、污水處理等領域的應用,對石墨烯復合氣凝膠的設計、制備、結構表征和性能評價有著豐富的經驗和扎實的理論基礎。
近五年來,主持國家自然科學基金等省部級項目5項。以第一作者或通訊作者在Science Bulletin、Advanced Materials、Water Research、Advanced Functional Materials、Advanced Science等國際知名期刊上發表SCI論文40余篇,其中中科院一區論文28篇,ESI熱點論文2篇,ESI高被引論文7篇,影響因子大于10的論文24篇,累計總影響因子400+。總被引2400余次,H因子27。授權專利4項。科睿唯安2025“全球高被引科學家”(交叉領域)、2次獲批山東省材料科技成果二等獎(首位、第二位)、2025年埃尼獎提名、于金明科研創新獎、Wiley威立中國開放科學高貢獻作者獎等。
目前擔任山東省國際人才交流協會醫學人才分會委員,Exploration 期刊學術編委、Carbon Energy、Nano-Micro Letters、Nano Materials Science、Carbon Neutralization、Tungsten、Progress in Natural
Science: Material International、Green Carbon、CleanMat和Applied Research雜志青年編委。多次受邀作為濟南市科技計劃“揭榜掛帥”項目論證會、山東省自然科學基金重大基礎研究項目啟動評審會、泰山產業領軍人才評審會及臨沂高層次人才創新創業大賽決賽評審工作等。此外,還多次出席中國材料大會、山東材料大會、中國化學會年會等領域內多個重要會議,并做邀請報告。
個人主頁:https://stic.sdfmu.edu.cn/info/1012/1190.htm
Research Gate:https://www.researchgate.net/profile/Chenwei-Li-6
聯系方式:17685811862(微信) [email protected]
研究方向:
1. 超回彈石墨烯網絡的構筑與調控;
2. 界面光熱蒸發器件的設計與制備;
3. 柔性可穿戴傳感器的設計與應用;
4. 高效電磁吸波/屏蔽材料的構筑;
5. 醫用多孔氣凝膠材料設計與制備。
1. 太陽能蒸發器用于海水淡化、污水處理
[1] M. Ding*, D. Zhao, Z. Duan, Z. Pan, C. Liu, C. Li*, J. Zhang. Bio-inspired solar evaporators for stable and efficient desalination of high-salinity brine with zero liquid discharge. Science Bulletin, 2025, 70 2812-2823. (影響因子: 21.2;中科院1區) (Article)
[2] M. Ding, Z. Duan, L. Zhang, C.-Y. Liu, C. Li,* J. Zhang. Modular Gradient-Porous Evaporator for Efficient Solar Desalination and Autonomous Salt Harvesting from High-Salinity Brine. Water Research, 2025, Accept. (影響因子: 12.4;中科院1區) (Article)
[3] M. Ding*, Z. Duan, D. Zhao, C.-Y. Liu, C. Li*. Tree-inspired 3D Biomimetic Evaporator for Efficient Solar Desalination and Automated Salt Collection with Zero Liquid Discharge. Advanced Functional Materials, 2025, e12220. (影響因子: 19.0;中科院1區) (Article)
[4] Z. Duan, P. Feng, M. Ding*, D. Zhao, C.-Y. Liu, C. Li*, J. Zhang. Continuous all-day
atmospheric water harvesting with natural polymer bilayer aerogels through
simultaneous adsorption and desorption. Advanced Functional Materials, 2025, e11143. (影響因子: 19.0;中科院1區) (Article)
[5] M. Ding, D. Zhao, P. Feng, B. Wang, Z. Duan, R. Wei, Y. Zhao, C. Liu, C. Li*. Highly Efficient 3D Solar Evaporator for Zero Liquid Discharge Desalination of High-Salinity Brine. Carbon Energy, 2024, e548. (ESI高被引論文;影響因子: 20.5;中科院1區) (Article)
[6] D. Zhao, M. Ding*, T. Lin, Z. Duan, R. Wei, P. Feng, J. Yu, C. Liu, C. Li*. Gradient graphene spiral sponges for efficient solar evaporation and zero liquid discharge desalination with directional salt crystallization. Advanced Science, 2024, 2400310. (ESI熱點論文;ESI高被引論文;影響因子: 15.1;中科院1區) (Article)
[7] C. Li#*, D. Jiang#, B. Huo, C. Huang, D. Jia, H. Li, C. Liu, J. Liu*. Scalable and Robust Bilayer Polymer Foams for Highly Efficient and Stable Solar Desalination. Nano Energy, 2019, 60, 841. (ESI高被引論文;影響因子: 19.0;中科院1區) (Article)
[8] J. Yu, C. Wang, S. Liu, S. Yang, S. Liu, C. Shao, H. Kong, B. Wang, T. Wu*, C. Li*. Solid Waste-Derived Solar Desalination Devices: Enhanced Efficiency in Water Vapor Generation and Diffusion. Chemical Engineering Journal, 2024, 485, 149870. (ESI高被引論文;影響因子: 15.1;中科院1區) (Article)
[9] C. Shao*, B. Guo, B. Lu, J. Yu, H. Kong, B. Wang, M. Ding, C. Li*. PDI-Based Organic Small Molecule Regulated by Inter/Intramolecular Interactions for Efficient Solar Vapor Generation. Small, 2023, 2305856. (影響因子: 13.3;中科院1區) (Article)
[10] B. Huo, D. Jiang, X. Cao, H. Liang, Z. Liu, C. Li*, J. Liu*. N-doped Graphene/Carbon Hybrid Aerogels for Efficient Solar Steam Generation. Carbon, 2019, 142, 13. (ESI高被引論文;影響因子: 11.3;中科院1區) (Article)
[11] H. Li, D. Jia, M. Ding*, L. Zhou, K. Wang, J. Liu*, C. Liu, C. Li*. Robust 3D Graphene/Cellulose Nanocrystals Hybrid Lamella Network for Stable and Highly Efficient Solar Desalination. Solar RRL 2021, 5, 2100317. (影響因子:9.1;中科院1區) (Article)
2. 石墨烯功能復合材料
[1] C. Li, L. Qiu, B. Zhang, D. Li*, C. Liu*. Robust Vacuume/Air Dired Graphene Aerogels and Fast Recoverable Shape-memory Hybrid Foams. Advanced Materials, 2016, 28, 1510. (影響因子: 32.0;中科院1區) (Article)
[2] M. Ding, H. Lu, Y. Sun, Y. He, J. Yu, H. Kong, C. Shao, C. Liu, C. Li*. Superelastic 3D Assembled Clay/Graphene Aerogels for Continuous Solar Desalination and Oil/Organic
Solvent Absorption. Advanced Science, 2022, 2205202. (ESI熱點論文;影響因子: 17.5;中科院1區) (Article)
[3] C. Li#*, D. Jiang#, H. Liang, B. Huo, C. Li u, W. Yang, J. Liu*. Superelastic and Arbitrary-Shaped Graphene Aerogels with Sacrificial Skeleton of Melamine Foam for Varied Applications. Advanced Functional Materials, 2018, 28, 1704674. (影響因子: 19.9;中科院1區) (Article)
[4] D. Jiang#, C. Li#, W. Yang, J. Zhang, J. Liu*. Fabrication of Arbitrary-Shaped and Nitrogen-Doped Graphene Aerogel for Highly Compressible All Solid-State Supercapacitors. Journal of Materials Chemistry A, 2017, 5, 18684. (共同一作;影響因子: 14.5;中科院1區) (Article)
[5] C. Li*, B. Zhang, X. Qiao, C. Liu*. Graphene Aerogels that Withstand Extreme Compressive Stress and Strain. Nanoscale, 2018, 10, 18291. (影響因子: 8.3;中科院1區)(Article)
[6] M. Ding, D. Zhao, R. Wei, Z. Duan, Y. Zhao, Z. Li, T. Lin, C. Li*. Multifunctional elastomeric composites based on 3D graphene porous materials. Exploration, 2024, 4,
20230057. (影響因子: 22.5)(Perspective)
[7] H. Liang, D. Jiang, S. Wei, X. Cao, T. Chen, B. Huo, Z. Peng*, C. Li*, J. Liu*. 3D cellular CoS1.097/nitrogen doped graphene foam: a durable and self-supported bifunctional electrode for overall water splitting. Journal of Materials Chemistry A, 2018, 6, 16235. (影響因子: 14.5;中科院1區) (Article)
[8] D. Jiang, H. Liang, Y. Liu, Y. Zheng, C. Li*, W. Yang*, C. Barrow, J. Liu*. In-situ
Generation of CoS1.097 Nanoparticles on S/N Co-Doped Graphene/Carbonized Foam for Mechanically Tough and Flexible All Solid-State Supercapacitors. Journal of Materials Chemistry A, 2018, 6, 11966. (影響因子: 14.5;中科院1區) (Article)
[9] H. Kong, Z. Song*, M. Ding, C. Shao, J. Yu, B. Wang, W. Li, C. Li*, L. Niu. Multifunctional High-Performance Pressure/Proximity/Temperature Sensors Enabled by Hybrid Resistive-Supercapacitive Respons. Nano Research, 2024, 17, 5604. (影響因子:10.2;中科院1區) (Article)
[10] D. Jia*, K. Zheng, M. Song, H. Tan, A. Zhang, L. Wang, L. Yue, D. Li, C. Li*, J. Liu*. VO2·0.2H2O nanocuboids anchored onto graphene sheets as the cathode material for ultrahigh capacity aqueous zinc ion batteries. Nano Research, 2020, 13, 215. (高被引論文;影響因子:10.2;中科院1區) (Article)
[11] D. Jiang, H. Liang, W. Yang, Y. Liu, X. Cao, J. Zhang, C. Li*, J. Liu*, J. Gooding*. Screen-Printable Films of Graphene/CoS2/Ni3S4 Composites for Flexible and Arbitrary-Shaped All Solid-State Hybrid Supercapacitor Device. Carbon, 2019, 146, 557. (影響因子: 11.3;中科院1區) (Article)
[12] K. Zheng#, L. Liao#, Y. Zhang, H. Tan, J. Liu,* C. Li,* D. Jia,* Hierarchical NiCo-LDH core/shell homostructural electrodes with MOF-derived shell for electrochemical energy
storage. Journal of Colloid and Interface Science, 2022, 619, 75. (高被引論文;影響因子: 9.9;中科院1區) (Article)
[13] H. Liang#, C. Li#, T. Chen, L. Cui, J. Han, Z. Peng*, J. Liu*. Facile preparation of three-dimensional Co1-xS/sulfur and nitrogen-codoped graphene/carbon foam for highly efficient oxygen reduction reaction. Journal of Power Sources, 2018, 378, 699. (共同一作;影響因子: 9.7;中科院1區) (Article)
3. 電磁吸波/屏蔽材料
[1] X. Li, M. Niu, C. Li,* Z. Zhang,* J. Zhang, R. Sun, J. Hou, X. Wang*. Dipole polarization and synchronous magnetic modulation induced by FeN4 moiety on Ti3C2Tx for superior
electromagnetic wave absorption performance. Carbon Energy, 2025, DOI: 10.1002/cey2.70078. (影響因子: 24.2;中科院1區) (Article)
[2] B. Wang*, C. Ni, M. Ding, D. Zhao, Z. Duan, X. Xie*, C. Li*. Hierarchically pepper wood-like Co3Fe7@C nanotubes for broadband microwave absorption and efficient electromagnetic interference shielding. Journal of Materials Science & Technology, 2025, 244, 196-207. (影響因子: 14.3;中科院1區) (Article)
[3] B. Wang, C. Ni,* X. Xie, M. Ding, C. Li*. Carbon nanotubes-encapsulated Co/Co7Fe3 nanocomposites: Achieving wideband electromagnetic wave absorption at ultrathin-thickness by regulating magnetic phase ratio. Chemical Engineering Journal,
2024, 494, 153076. (影響因子: 14.3;中科院1區) (Article)
[4] B. Wang, M. Ding, C. Shao, J. Yu, H. Kong, D. Zhao, C. Li*. Facile synthesis of CoxFey@C nanocomposite fibers derived from pyrolysis of cobalt/iron chelate nanowires for strong broadband electromagnetic wave absorption. Chemical Engineering Journal, 2023,
465, 142803. (影響因子: 15.1;中科院1區) (Article)
[5] B. Wang, C. Li*, C. Ni, X. Xie*. Facile synthesis of heterogeneous Co/MnO@C nanocapsules with dual-cores: Achieving strong and broadband microwave absorption by magnetic-dielectric synergy. Applied Surface Science 2023, 614, 156228. (影響因子: 7.3;中科院1區) (Article)
二、授權的主要專利
[1] 李晨蔚; 丁美春; 段振營; 趙德民; 一種具有鹽定向結晶和自動收集的三維太陽能蒸發器及其制備方法,授權日期:2025年10月20日,中國,ZL 2024 11361977.6.
[2] 李晨蔚; 丁美春; 劉琛陽; 鹿浩; 一種用于水處理的三維石墨烯/粘土復合氣凝膠,授權日期:2023年7月28日,中國,ZL 2022 10837740.5.
[3] 劉琛陽; 李晨蔚; 張寶慶; 鹿浩; 一種石墨烯氣凝膠和其雜化復合材料及其制備方法與應用,授權日期:2019年7月2日, 中國,ZL 2015 1 0490791.5.
[4] 劉琛陽; 鹿浩; 張寶慶; 李晨蔚; 一種親疏水性可調的石墨烯/粘土復合彈性氣凝膠及其制備方法,授權日期:2019年11月12日, 中國,ZL 2016 1 0206645.X
[5] 戴天元; 劉敬權; 李晨蔚; 姜德剛; 一種超彈性石墨烯氣凝膠的制備方法, 授權日期:2018年6月22日, 中國, ZL 2017 1 0046029.7