车全通

发布时间:2025-06-12浏览次数:17



姓名:车全通

职称:副教授

专业:化学

所属二级学科:物理化学

研究方向:燃料电池;纳米材料界面自组装

E-mail: cheqt@mail.neu.edu.cn




个人简历:东北大学,理学院化学系,博士副教授,特聘研究员,硕士研究生导师。20111月于东北大学获博士学位,导师为何荣桓教授。20084月起任教至今。20133-20144月,作为国家全额资助访问学者赴美国密歇根大学安娜堡分校(University of Michigan, Ann Arbor)进修,师从美国工程院院士Nicholas A Kotov教授。

近年来的主要研究工作:

1)基于界面自组装技术构筑有机/无机复合微纳结构

将无机碳纳米材料分别与离子液体、碲化镉纳米晶进行界面自组装制备复合质子传导载体。开展了复合纳米晶体作为质子传导载体为质子快速传导提供连续的定向传输通道,以及作为阴离子传导载体的相关研究。此外,将疏水性离子液体与碲化镉纳米晶进行界面自组装,制备无机有机纳米线以及纳米片。

2)有序微纳结构复合膜的构筑以及构效关系研究

采用静电纺丝技术以及冷冻干燥技术制备纤维结构复合膜,通过降低离子传导阻力以提高电导率。此外,利用旋涂技术制备层状结构的复合膜。突破传统的两组分自组装模式,将两种带正(负)电材料分别与一种带负(正)材料进行层层自组装制备三组分复合膜,多种组分参与组装有利于调控复合膜的性质。

3)可拉伸复合膜的构筑以及多次拉伸后的性能研究

基于MOFsCOFs 以及线性三嵌共聚物等热塑性弹性体材料,制备可拉伸质子交换膜以及可拉伸阴离子交换膜。通过对材料进行分子链设计以及调整微观结构,复合膜经过多次拉伸后仍具有良好的电导率以及机械性能,为柔性燃料电池的发展提供高性能柔性膜电解质。

近年来承担的主要项目(五项):

1. 基于碲化镉复合纳米线自组装研究构筑无机有机复合膜电解质, 国家自然科学基金, 主持

2. 基于碲化镉氧化碳纳米管复合质子导体构筑具有层层自组装结构的膜电解质, 教育部基本科研业务费,

3. SPE电解水制氢电解堆关键技术, 辽宁省科技计划项目-科技厅重大专项, 子课题主持

4. 基于离子液体纳米线制备层层自组装膜及其性能研究,辽宁省教育厅,主持

5. MVR技术在退役锂电池回收有价金属工艺中的适应性研究,企业横向,主持

近年来发表的代表性论文(十篇):

1. Wu, Dan; Zhang, Niuniu; Gao, Weimin; Li, Qingquan; Gao, Xinna; Wang, Shuang; Che, Quantong*, Novel anion-exchange membranes with accelerated hydroxide ion conduction through a quaternized covalent organic framework-doped electrospinning binary polymer, JOURNAL OF MATERIALS CHEMISTRY A, 2024, 42(12): 28805-28817

2. Li, Qingquan; Gao, Weimin; Zhang, Niuniu; Gao, Xinna; Wu, Dan; Che, Quantong*, Preparation of high temperature proton exchange membranes with multilayered structures through alternate deposition of carbon dots@Metal organic framework and Sulfonated Poly(Ether Ketone), JOURNAL OF MEMBRANE SCIENC, 2025, 713, 123306

3. Hu, Shu; Wei, Tao; Li, Qingquan; Gao, Xinna; Zhang, Niuniu; Zhao, Yun*Che, Quantong*, Electrospun Sulfonated Poly(ether ether ketone) and Chitosan/Poly(vinyl alcohol) Bifunctional Nanofibers to Accelerate Proton Conduction at Subzero Temperature, ACS APPLIED MATERIALS & INTERFACES, 2024, 46(45): 62222-62234

4. Wei, Xiaoqing; Ren, Zhiwei; Wu, Dan; Hu, Shu; Li, Qingquan; Gao, Weimin; Zhao, Yun*; Che, Quantong*, Biaxially stretched anion exchange membrane with high and stable hydroxide conductivity at subzero temperature, RENEWABLE ENERGY, 2025, 240, 122283

5. Hu, Shu; Wei, Xiaoqing; Li, Qingquan; Gao, Weimin; Wu, Dan; Che, Quantong*, Constructing sandwich-like microstructure based on multi-nanofibers to accelerate proton conduction at subzero temperature, JOURNAL OF MEMBRANE SCIENCE, 2024, 702, 122802

6. Li, Qingquan; Song, Di; Gao, Weimin; Wu, Dan; Zhang, Niuniu; Gao, Xinna; Che, Quantong*, Construction of successive proton conduction channels to accelerate the proton conduction process in flexible proton exchange membranes, ACS APPLIED MATERIALS & INTERFACES, 2024, 16(10): 12686-12696

7. Liu, Ke; Wei, Xiaoqing; Hu, Shu; Li, Qingquan; Gao, Weimin; Wu, Dan; Che, Quantong*, Enhancing proton conduction of high temperature proton exchange membranes based on carbon dots doped polyvinyl chloride nanofibers, SEPARATION AND PURIFICATION TECHNOLOGY, 2023, 325, 124679

8. Jia, Jing; Liu, Ke; Zuo, Tingting; Song, Di; Wang, Ning; Hu, Shu; Wei, Xiaoqing; Che, Quantong*, Enhancing proton conductivity at subzero temperature through constructing the well-ordered structure based on carbon dots, JOURNAL OF MEMBRANE SCIENCE, 2022, 653, 120536

9. Liu, Lei; Li, Ziyun; Che, Quantong*, Multilayered membrane electrolytes based on aramid nanofibers for high-temperature proton exchange membrane fuel cells, ACS APPLIED NANO, 2019, 2(4): 2160-2168

10. Che, Quantong*; Li, Ziyun; Pan, Bin; Duan, Xiangqing; Jia, Tingting; Liu, Le, Fabrication of layered membrane electrolytes with spin coating technique as anhydrous proton exchange membranes, JOURNAL OF COLLOID AND INTERFACE SCIENC, 2019, 555: 722-730