蔡延萌老师简介
作者: 发布时间:2026-07-13
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博士/讲师/硕士生导师 E-mail:caiyanmeng0315@163.com |
招生专业:化学工程与技术、材料与化工、化学 科研方向:电化学水处理、电解水电极开发 |
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讲授课程 本科生:《化工热力学》《精细化工工艺学实验》《化工原理实验》 教育经历 2022.07-至今 聊城大学化学化工学院 讲师 2018.09-2022.06 天津大学 化学工程 博士 2013.09-2016.06 天津大学 化学工程 硕士 2009.09-2013.06 山东理工大学 化学工程与工艺 学士 科研项目 1. 山东省自然科学基金:增强二维法拉第赝电容MXene基复合材料的结构稳定性和离子选择性机理研究,15万,主持; 2.聊城大学科研启动经费,20万,主持; 3. 横向课题,高效电解水制氢电极技术开发,8万,在研,主持 科研成果(第一作者或通讯作者、专利) 1. Pengze Li; Xiaodan Chong; Yutong Guo; Guangrun Wu; Shanshan Wang; Ruixue Liu; Jiamiao Ma;Yu Wang; Wenqiang Chen; Yanmeng Cai*; Yaoyao Wang*; Qing Yuan*; Jinsheng Zhao*; Heterostructure-Engineered Conductive MOFs Coupled with MoSe2@MXene Framework for Efficient and Selective Lithium Extraction from Salt Lake Brine via Capacitive Deionization, Advanced Science, 2026, e21830.((SCI一区,IF:14.1)) 2. Yanmeng Cai, Pengze Li, Qing Yuan*, Jinsheng Zhao*, P. Tsiakaras*, Efficient and selective uranium electrochemical extraction over flexibly engineered bi-functional Polypyrole@MoSe2@MXene, Chemical Engineering Journal, 507 (2025) 160496. (SCI一区,IF:13.2) 3. Yanmeng Cai; Guangyuan Zhao; Qing Yuan*; Jinsheng Zhao*; Elaborate designed sandwich structural faradic material NPC/NiMn-LDH/ MXene for enriched ion accessible transfer pathways in capacitive deionization, Chemical Engineering Journal, 2024, 484(149491). (SCI一区,IF:13.2) 4. Pengze Li, Ruili Zhao, Youkui Wang, Yanmeng Cai*, Qing Yuan*, Jinsheng Zhao*, Configuration of 3D hydrangea-like MoSe2@N-doped carbon nanoflowers with synergistic functional regulation for highly efficient and selective capacitive deionization, Separation and Purification Technology, 362 (2025) 131885. (SCI二区,IF:9.5) 5. Yanmeng Cai; Fei Zhao; Jinsheng Zhao*; Yue Wang*; Flexible construction of three dimensional continuous conductive structure by hollow carbon sphere and CNT for promoted ions transport in flow-electrode capacitive deionization, Separation and Purification Technology,2024, 337(126405) (SCI二区,IF:9.5) 6. Yanmeng Cai, Wen Zhang, Jinsheng Zhao*, Yue Wang*, Flexible structural construction of the ternary composite Ni,Co-Prussian blue analogue@MXene/polypyrrole for high-capacity capacitive deionization, Applied Surface Science, 622 (2023) 156926. (SCI二区,IF:6.9) 7. Yanmeng Cai; Le Zhang; Rongli Fang; Yue Wang; Jixiao Wang*; Maximized ion accessibility in the binder-free layer-by-layer MXene/CNT film prepared by the electrophoretic deposition for rapid hybrid capacitive deionization, Separation and Purification Technology, 2022,292(121019) (SCI二区,IF:9.5) 8. Yanmeng Cai, Yue Wang*, Le Zhang, Rongli Fang, Jixiao Wang, 3D Heterostructure Constructed by Few-Layered MXenes with a MoS2 Layer as the Shielding Shell for Excellent Hybrid Capacitive Deionization and Enhanced Structural Stability. ACS Applied Materials & Interfaces, 2022, 14 (2): 2833-2847. (SCI一区, IF 9.229) 9. Yanmeng Cai, Wen. Zhang*, Rongli Fang, Dongdong Zhao, Yue Wang*, Jixiao Wang, Well-dispersed few-layered MoS2 connected with robust 3D conductive architecture for rapid capacitive deionization process and its specific ion selectivity, Desalination, 520 (2021) 115325.(SCI一区, IF 9.501) 10. Yanmeng Cai, Le Zhang,Rongli Fang,Yue Wang*, Jixiao Wang, Maximized ion accessibility in the binder-free layer-by-layer MXene/CNT film prepared by the electrophoretic deposition for rapid hybrid capacitive deionization. Separation and Purification Technology, 292 (2022) 121019 (SCI二区, IF:9.5) 11. Yanmeng Cai, Yue Wang*, Rongli Fang, Jixiao Wang, Flexible structural engineering of PPy-NiCo-LDH@Mxene for improved capacitive deionization and efficient hard water softening process, Separation and Purification Technology, 280 (2022) 119828. (SCI二区, IF 9.5 ) 12. Yanmeng. Cai, Xiaotong Zhao, Yue Wang*, Dongya Ma, Shichang Xu, Enhanced desalination performance utilizing sulfonated carbon nanotube in the flow-electrode capacitive deionization process, Separation and Purification Technology, 237 (2020) 116381. (二区, IF 9.5 ) 13. Yanmeng Cai, Yue Wang*, Yazhen Zhao, Shixuan Wang, jixiao Wang, Synergetic effects of different ion-doped polypyrrole layer coupled with β-cyclodextrin-derived hollow bottle-like carbon supporting framework for enhanced capacitive deionization performance, Electrochimica Acta, 388 (2021) 138555. (SCI二区, IF 6.901) |
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