李晨蔚,教授,博士生導(dǎo)師�����,泰山學(xué)者青年專家
李晨蔚����,博士�����,泰山學(xué)者青年專家����,山東第一醫(yī)科大學(xué)化學(xué)與制藥工程學(xué)院教授/博導(dǎo)��。2016年于中國科學(xué)院化學(xué)研究所取得博士學(xué)位�。2016-2021年任教于青島大學(xué)材料學(xué)院�����,2021年6月加入山東第一醫(yī)科大學(xué)化學(xué)與制藥工程學(xué)院����,入駐濟南校區(qū)科創(chuàng)中心��,并組建“石墨烯功能復(fù)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(gòu)成�����。主要研究高力學(xué)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(lǐng)域的應(yīng)用�,對石墨烯復(fù)合氣凝膠的設(shè)計�、制備、結(jié)構(gòu)表征和性能評價有著豐富的經(jīng)驗和扎實的理論基礎(chǔ)�。
近五年來��,主持國家自然科學(xué)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(fā)表SCI論文40余篇,其中中科院一區(qū)論文28篇��,ESI熱點論文3篇��,ESI高被引論文9篇�,影響因子大于10的論文27篇�����,累計總影響因子400+��?����?偙灰?800余次���,H因子29��。授權(quán)專利4項。科睿唯安2025“全球高被引科學(xué)家”(交叉領(lǐng)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(chuàng)新獎�����、Wiley威立中國開放科學(xué)高貢獻作者獎等���。
目前擔任山東省國際人才交流協(xié)會醫(yī)學(xué)人才分會委員���,Exploration 期刊學(xué)術(shù)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(xué)基金重大基礎(chǔ)研究項目啟動評審會����、泰山產(chǎn)業(yè)領(lǐng)軍人才評審會及臨沂高層次人才創(chuàng)新創(chuàng)業(yè)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(xué)會年會等領(lǐng)域內(nèi)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(lián)系方式:17685811862(微信) lichenwei@iccas.ac.cn
研究方向:
1. 超回彈石墨烯網(wǎng)絡(luò)的構(gòu)筑與調(diào)控���;
2. 界面光熱蒸發(fā)器件的設(shè)計與制備;
3. 柔性可穿戴傳感器的設(shè)計與應(yīng)用;
4. 高效電磁吸波/屏蔽材料的構(gòu)筑����;
5. 醫(yī)用多孔氣凝膠材料設(shè)計與制備��。
1. 太陽能蒸發(fā)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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (Article)
2. 石墨烯功能復(fù)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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū))(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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (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(qū)) (Article)
二���、授權(quán)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(jié)晶和自動收集的三維太陽能蒸發(fā)器及其制備方法�����,授權(quán)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(fù)合氣凝膠���,授權(quán)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(fù)合材料及其制備方法與應(yīng)用����,授權(quán)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(diào)的石墨烯/粘土復(fù)合彈性氣凝膠及其制備方法���,授權(quán)日期:2019年11月12日, 中國�����,ZL 2016 1 0206645.X
[5] 戴天元; 劉敬權(quán); 李晨蔚; 姜德剛; 一種超彈性石墨烯氣凝膠的制備方法, 授權(quán)日期:2018年6月22日, 中國, ZL 2017 1 0046029.7