准一维纳米功能材料的可控制备、结构与性能

目前的研究课题：
(1) 碳纳米管及其它准一维纳米材料的结构控制、尺度效应、应用基础；
(2) 探索制备新型有序纳米结构的新工艺、新方法，研究其动力学过程、界面结构以及二者之间的关系，研究新型纳米材料的物理性质与应用价值；
(3) 碳纳米管复合结构的制备和综合性能研究；
(4) 二元/赝二元体系纳米材料的结构设计、制备方法、生长机理和物性研究；
(5) 纳米体系表面、界面结构和对性能的调制作用。

   

吉林大学 19790901--19840701 本科生
吉林大学 19840901--19870701 硕士生
吉林大学 19870801--19900601 博士生 

吉林大学 199007  理学博士 

曾为荷兰格罗宁根大学博士后及德国哥廷根大学访问学者。

   

1991.10-1994.8   中科院物理研究所  助理研究员
1994.8-2000.9     中科院物理研究所  副研究员
2000.9-至今      中科院物理研究所  研究员
现任中科院物理所“纳米材料与介观物理”研究组组长

   

中科院自然科学一等奖一项
国家自然科学二等奖一项

   

[1] Liu, Lin, Wei, Xiaojun, Yao, Zhihui, Li, Xiao, Wang, Wenke, Wang, Yanchun, Zhou, Weiya, Xiong, Feibing, Kataura, Hiromichi, Xie, Sishen, Liu, Huaping. Separation of Metallic and Semiconducting Single-Wall Carbon Nanotubes Using Sodium Hyodeoxycholate Surfactant. JOURNAL OF PHYSICAL CHEMISTRY C[J]. 2022, 126(7): 3787-3795, http://dx.doi.org/10.1021/acs.jpcc.2c00330.
[2] Wang, Futian, Yang, Dehua, Li, Linhai, Liu, Yumin, Wei, Xiaojun, Zhou, Weiya, Kataura, Hiromichi, Liu, Huaping, Xie, Sishen. Electronic Type and Diameter Dependence of the Intersubband Plasmons of Single-Wall Carbon Nanotubes. ADVANCED FUNCTIONAL MATERIALS[J]. 2022, 32(11): http://dx.doi.org/10.1002/adfm.202107489.
[3] Yuejuan Zhang, Songshan Bi, Zhiqiang Niu, Weiya Zhou, Sishen Xie. Design of Zn anode protection materials for mild aqueous Zn-ion batteries. Energy Mater[J]. 2022, https://energymaterj.com/article/view/4775.
[4] Shilong Li, Linhai Li, Xiaojun Wei, Weiya Zhou, Sishen Xie, Huaping Liu. Chirality-dependent concentration boundaries of single-wall carbon nanotubes for photoluminescence characterization and applications. Nano Research[J]. 2022, https://link.springer.com/content/pdf/10.1007/s12274-022-4959-1.pdf?pdf=button.
[5] Wei, Xiaojun, Li, Shilong, Wang, Wenke, Zhang, Xiao, Zhou, Weiya, Xie, Sishen, Liu, Huaping. Recent Advances in Structure Separation of Single-Wall Carbon Nanotubes and Their Application in Optics, Electronics, and Optoelectronics. ADVANCED SCIENCE[J]. 2022, 9(14): http://dx.doi.org/10.1002/advs.202200054.
[6] Li, Shaoqing, Zhou, Weiya, Xia, Xiaogang, Wang, Yanchun, Xie, Sishen. Temporal Feature and Flexible Modulation in Artificial Synapses Realized by a Combination of Phase Transition and Asymmetric Electric Double Layers. ACS APPLIED ELECTRONIC MATERIALS[J]. 2022, https://pubs.acs.org/doi/10.1021/acsaelm.2c00757.
[7] Li, Shaoqing, Zhou, Weiya, Xia, Xiaogang, Lu, Zhao, Chen, Penghui, Wang, Zibo, Xiao, Zhuojian, Xi, Wei, Wang, Yanchun, Rao, Guanghui, Xie, Sishen. Binder-Free Electrodes with High Energy Density and Excellent Flexibility Enabled by Hierarchical Configuration for Wearable Lithium Ion Batteries. ADVANCED MATERIALS TECHNOLOGIES[J]. 2021, 6(8): http://dx.doi.org/10.1002/admt.202001262.
[8] Xia, Xiaogang, Zhang, Qiang, Zhou, Wenbin, Mei, Jie, Xiao, Zhuojian, Xi, Wei, Wang, Yanchun, Xie, Sishen, Zhou, Weiya. Integrated, Highly Flexible, and Tailorable Thermoelectric Type Temperature Detectors Based on a Continuous Carbon Nanotube Fiber. SMALL[J]. 2021, 17(40): http://dx.doi.org/10.1002/smll.202102825.
[9] Yang, Dehua, Li, Linhai, Wei, Xiaojun, Wang, Yanchun, Zhou, Weiya, Kataura, Hiromichi, Xie, Sishen, Liu, Haping. Submilligram-scale separation of near-zigzag single-chirality carbon nanotubes by temperature controlling a binary surfactant system. SCIENCE ADVANCES[J]. 2021, 7(8): https://www.webofscience.com/wos/woscc/full-record/WOS:000620146100019.
[10] Xia, XiaoGang, Zhang, Qiang, Zhou, WenBin, Xiao, ZhuoJian, Xi, Wei, Wang, YanChun, Zhou, WeiYa. Highly flexible and excellent performance continuous carbon nanotube fibrous thermoelectric modules for diversified applications*. CHINESE PHYSICS B[J]. 2021, 30(7): 100-106, http://dx.doi.org/10.1088/1674-1056/abff33.
[11] Zhang, Nan, Xu, Junyuan, Wei, Bin, Li, Junjie, Amorim, Isilda, Thomas, Rajesh, Thalluri, Sitaramanjaneya Mouli, Wang, Zhongchang, Zhou, Weiya, Xie, Sishen, Liu, Lifeng. Mille-Crepe-like Metal Phosphide Nanocrystals/Carbon Nanotube Film Composites as High-Capacitance Negative Electrodes in Asymmetric Supercapacitors. ACS APPLIED ENERGY MATERIALS[J]. 2020, 3(5): 4580-4588, https://www.webofscience.com/wos/woscc/full-record/WOS:000537656400059.
[12] Chen, Penghui, Zhou, Weiya, Xiao, Zhuojian, Li, Shaoqing, Wang, Zibo, Wang, Yanchun, Xie, Sishen. An integrated configuration with robust interfacial contact for durable and flexible zinc ion batteries. NANO ENERGY[J]. 2020, 74: http://dx.doi.org/10.1016/j.nanoen.2020.104905.
[13] Chen, Penghui, Zhou, Weiya, Xiao, Zhuojian, Li, Shaoqing, Chen, Huiliang, Wang, Yanchun, Wang, Zibo, Xi, Wei, Xia, Xiaogang, Xie, Sishen. In situ anchoring MnO nanoparticles on self-supported 3D interconnected graphene scroll framework: A fast kinetics boosted ultrahigh-rate anode for Li-ion capacitor. ENERGY STORAGE MATERIALS[J]. 2020, 33: 298-308, http://dx.doi.org/10.1016/j.ensm.2020.08.017.
[14] Li, Shilong, Wei, Xiaojun, Li, Linhai, Cui, Jiaming, Yang, Dehua, Wang, Yanchun, Zhou, Weiya, Xie, Sishen, Hirano, Atsushi, Tanaka, Takeshi, Kataura, Hiromichi, Liu, Huaping. Quantitative analysis of the effect of reabsorption on the Raman spectroscopy of distinct (n, m) carbon nanotubes. ANALYTICAL METHODS[J]. 2020, 12(18): 2376-2384, https://www.webofscience.com/wos/woscc/full-record/WOS:000535912400008.
[15] Su, Wei, Yang, Dehua, Cui, Jiaming, Wang, Futian, Wei, Xiaojun, Zhou, Weiya, Kataura, Hiromichi, Xie, Sishen, Liu, Huaping. Ultrafast wafer-scale assembly of uniform and highly dense semiconducting carbon nanotube films for optoelectronics. CARBON[J]. 2020, 163: 370-378, http://dx.doi.org/10.1016/j.carbon.2020.03.032.
[16] Zhang, Qiang, Zhou, Weiya, Xia, Xiaogang, Li, Kewei, Zhang, Nan, Wang, Yanchun, Xiao, Zhuojian, Fan, Qingxia, Kauppinen, Esko, I, Xie, Sishen. Transparent and Freestanding Single-Walled Carbon Nanotube Films Synthesized Directly and Continuously via a Blown Aerosol Technique. ADVANCED MATERIALS[J]. 2020, 32(39): http://dx.doi.org/10.1002/adma.202004277.
[17] Li, Shilong, Yang, Dehua, Cui, Jiaming, Wang, Yanchun, Wei, Xiaojun, Zhou, Weiya, Kataura, Hiromichi, Xie, Sishen, Liu, Huaping. Quantitative analysis of the intertube coupling effect on the photoluminescence characteristics of distinct (n, m) carbon nanotubes dispersed in solution. NANO RESEARCH[J]. 2020, 13(4): 1149-1155, http://lib.cqvip.com/Qikan/Article/Detail?id=7102021087.
[18] Cui, Jiaming, Su, Wei, Yang, Dehua, Li, Shilong, Wei, Xiaojun, Zhou, Naigen, Zhou, Weiya, Xie, Sishen, Kataura, Hiromichi, Liu, Huaping. Mass Production of High-Purity Semiconducting Carbon Nanotubes by Hydrochloric Acid Assisted Gel Chromatography. ACS APPLIED NANO MATERIALS[J]. 2019, 2(1): 343-350, https://www.webofscience.com/wos/woscc/full-record/WOS:000464491500037.
[19] Xiao, Zhuojian, Zhou, Weiya, Zhang, Nan, Zhang, Qiang, Xia, Xiaogang, Gu, Xiaogang, Wang, Yanchun, Xie, Sishen. All-Carbon Pressure Sensors with High Performance and Excellent Chemical Resistance. SMALL[J]. 2019, 15(13): https://www.webofscience.com/wos/woscc/full-record/WOS:000462378100014.
[20] Hu, Zhijian, Mi, Yang, Ji, Yinglu, Wang, Rui, Zhou, Weiya, Qiu, Xiaohui, Liu, Xinfeng, Fang, Zheyu, Wu, Xiaochun. Multiplasmon modes for enhancing the photocatalytic activity of Au/Ag/Cu2O core-shell nanorods. NANOSCALE[J]. 2019, 11(35): 16445-16454, http://dx.doi.org/10.1039/c9nr03943k.
[21] 刘华平, 周维亚, 解思深. 大直径半导体碳纳米管手性结构实现宏量分离. 物理[J]. 2018, 47(2): 95-97, http://lib.cqvip.com/Qikan/Article/Detail?id=674524486.
[22] 肖仕奇, 范庆霞, 夏晓刚, 肖卓建, 陈辉亮, 席薇, 陈鹏辉, 李俊杰, 王艳春, 刘华平, 周维亚. Dependence of the solar cell performance on nanocarbon/Si heterojunctions. 中国物理B：英文版[J]. 2018, 27(7): 595-600, http://lib.cqvip.com/Qikan/Article/Detail?id=675751915.
[23] Zeng, Xiang, Yang, Dehua, Liu, Huaping, Zhou, Naigen, Wang, Yanchun, Zhou, Weiya, Xie, Sishen, Kataura, Hiromichi. Detecting and Tuning the Interactions between Surfactants and Carbon Nanotubes for Their High-Efficiency Structure Separation. ADVANCED MATERIALS INTERFACES[J]. 2018, 5(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000423173800002.
[24] Chen, HuiLiang, Xiao, ZhuoJian, Zhang, Nan, Xiao, ShiQi, Xia, XiaoGang, Xi, Wei, Wang, YanChun, Zhou, WeiYa, Xie, SiShen. Free-standing, curled and partially reduced graphene oxide network as sulfur host for high-performance lithium-sulfur batteries. CHINESE PHYSICS B[J]. 2018, 27(6): http://lib.cqvip.com/Qikan/Article/Detail?id=675399657.
[25] Xiao, Shiqi, Fan, Qingxia, Xia, Xiaogang, Xiao, Zhuojian, Chen, Huiliang, Xi, Wei, Chen, Penghui, Li, Junjie, Wang, Yanchun, Liu, Huaping, Zhou, Weiya. Dependence of the solar cell performance on nanocarbon/Si heterojunctions. CHINESE PHYSICS B[J]. 2018, 27(7): http://lib.cqvip.com/Qikan/Article/Detail?id=675751915.
[26] 陈辉亮, 肖卓建, 张楠, 肖仕奇, 夏晓刚, 席薇, 王艳春, 周维亚, 解思深. Free-standing, curled and partially reduced graphene oxide network as sulfur host for high-performance lithium–sulfur batteries. 中国物理B：英文版[J]. 2018, 27(6): 461-467, http://lib.cqvip.com/Qikan/Article/Detail?id=675399657.
[27] Yang, Dehua, Hu, Jinwen, Liu, Huaping, Li, Shilong, Su, Wei, Li, Qian, Zhou, Naigen, Wang, Yanchun, Zhou, Weiya, Xie, Sishen, Kataura, Hiromichi. Structure Sorting of Large-Diameter Carbon Nanotubes by NaOH Tuning the Interactions between Nanotubes and Gel. ADVANCED FUNCTIONAL MATERIALS[J]. 2017, 27(40): [28] Wenbin Zhou, Qingxia Fan, Qiang Zhang, Le Cai, Kewei Li, Xiaogang Gu, Feng Yang, Nan Zhang, Yanchun Wang, Huaping Liu, Weiya Zhou, Sishen Xie. High-performance and compact-designed flexible thermoelectric modules enabled by a reticulate carbon nanotube architecture. NATURE COMMUNICATIONS[J]. 2017, 8(1): https://doaj.org/article/349e0481c0f94a29b89ee9e4b3312b71.
[29] Fan, Qingxia, Zhang, Qiang, Zhou, Wenbin, Xia, Xiaogang, Yang, Feng, Zhang, Nan, Xiao, Shiqi, Li, Kewei, Gu, Xiaogang, Xiao, Zhuojian, Chen, Huiliang, Wang, Yanchun, Liu, Huaping, Zhou, Weiya, Xie, Sishen. Novel approach to enhance efficiency of hybrid silicon-based solar cells via synergistic effects of polymer and carbon nanotube composite film. NANO ENERGY[J]. 2017, 33: 436-444, http://dx.doi.org/10.1016/j.nanoen.2017.02.003.
[30] Yang, Feng, Ji, Yinglu, Zhang, Xiao, Fan, Qingxia, Zhang, Nan, Gu, Xiaogang, Xiao, Zhuojian, Zhang, Qiang, Wang, Yanchun, Wu, Xiaochun, Li, Junjie, Zhou, Weiya. Detection of invisible phonon modes in individual defect-free carbon nanotubes by gradient-field Raman scattering. CHINESE PHYSICS B[J]. 2017, 26(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000405134000001.
[31] Fan, Qingxia, Zhang, Qiang, Zhou, Wenbin, Yang, Feng, Zhang, Nan, Xiao, Shiqi, Gu, Xiaogang, Xiao, Zhuojian, Chen, Huiliang, Wang, Yanchun, Liu, Huaping, Zhou, Weiya. Highly conductive and transparent carbon nanotube-based electrodes for ultrathin and stretchable organic solar cells. CHINESE PHYSICS B[J]. 2017, 26(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000402252200001.
[32] Gu, Xiaogang, Xia, Xiaogang, Zhang, Nan, Xiao, Zhuojian, Fan, Qingxia, Yang, Feng, Xiao, Shiqi, Chen, Huiliang, Zhou, Weiya, Xie, Sishen. Electromechanical actuation of CNT/PVDF composite films based on a bridge configuration. CHINESE PHYSICS B[J]. 2017, 26(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000405133100001.
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[34] Li, Qian, Li, Shilong, Yang, Dehua, Su, Wei, Wang, Yanchun, Zhou, Weiya, Liu, Huaping, Xie, Sishen. Designing hybrid gate dielectric for fully printing high-performance carbon nanotube thin film transistors. NANOTECHNOLOGY[J]. 2017, 28(43): http://www.corc.org.cn/handle/1471x/2373554.
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[41] Dong, Haibo, Zhang, Xiaoxian, Niu, Zhiqiang, Zhao, Duan, Li, Jinzhu, Cai, Le, Zhou, Weiya, Xie, Sishen. Indium Tin Oxide Nanowires Grown by One-Step Thermal Evaporation-Deposition Process at Low Temperature. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY[J]. 2013, 13(2): 1300-1303, http://ir.iphy.ac.cn/handle/311004/57107.
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目前负责一项中科院知识创新工程重要方向项目、一项国家自然科学基金项目和“973” 项目—《纳米材料和纳米结构的性能与应用基础》的02课题。 
主要研究准一维纳米材料的结构控制、尺度效应、应用基础；开展碳纳米管及其复合结构的制备和综合性能的研究；探索制备新型有序纳米结构的新工艺、新方法，研究其动力学过程、界面结构以及二者之间的关系；研究新型准一维纳米材料的物理性质与应用价值。

已培养毕业博士生2名，协助培养已毕业博士生8名、硕士生2名。目前在读博士生1名，硕博连读生1名。

董海博  硕士研究生  070205-凝聚态物理  80008-物理研究所

牛志强  博士研究生  070205-凝聚态物理  80008-物理研究所