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刘少华

教授、博导

5357cc拉斯维加斯      

个人资料

  • 部门: 5357cc拉斯维加斯
  • 毕业院校: 上海交通大学
  • 学位: 博士
  • 学历: 博士
  • 邮编: 200241
  • 联系电话:
  • 传真:
  • 电子邮箱: shliu@phy.ecnu.edu.cn
  • 办公地址: 物理楼443
  • 通讯地址: 东川路500号物理楼443

教育经历

09/2008-12/2012  上海交通大学 应用化学专业 博士

09/2003-06/2007  太原理工大学 物理化学专业 硕士



工作经历

03/2017-至今        5357cc拉斯维加斯 5357cc拉斯维加斯材料系   研究员/教授、博导

02/2015-02/2017   德国德累斯顿工业大学 化学与食品学院分子功能材料中心 博士后 

02/2014-02/2015   德国马普高分子研究所 博士后

01/2013-02/2014   上海交通大学 博士后


个人简介

         主要从事材料化学研究,在先进功能材料(有机、无机、聚合物及其复合材料等)的可控构筑及其性能开发方面(光电、能源和传感等)做了系列工作,多篇论文发表发表在Nat Protoc. (1)、Nat Commun. (3)、Angew. (3) 和Adv. Mater. (3) 等期刊上。目前主要集中在以下方向:1. 新型多孔功能聚合物;2. 纳米能源材料与器件;3. 荧光/电化学传感检测。

         课题组依托精密光谱国家重点实验室、纳光电教育部工程中心,并与传感技术国家重点实验室(中科院微系统所)密切合作,建有材料合成、电化学和传感性能测试平台,欢迎优秀学子加盟!

社会兼职

国际期刊编委 (Editorial Board Member):

1. Nano-Micro Letters (一区SCI,影响因子: 36.6), 编委

2. Frontiers in Energy Research and Materials (Nature出版集团), 编委

3. Trends in Nanotechnology & Material Science, 编委


国际期刊审稿服务

Nat Commun, JACS, Adv. Mater., Energy Environ. Sci., Adv. Funct. Mater., Nanoscale, J.Mater. Chem. A 等提供审稿服务。


研究方向

1. 新型多孔功能聚合物;

2. 纳米能源材料与器件;

3. 荧光/电化学传感检测。



招生与培养

开授课程

《基础化学》、《材料化学》、《材料创新研究》等


科研项目

1.晶态多孔材料的介观螺旋构筑及其性能研究,家自然科学基金面上项目(52373208, 2024.01~2027.12),主持;

2.有序多孔聚合物的软界面多尺度构筑及其性能研究,家自然科学基金面上项目(51773062, 2018.01~2021.12),主持;

3.有机荧光敏感材料传感机理及传感器研究,家自然科学基金重点项目(61831021, 2019.01~2023.12),子课题

学术成果

   发表SCI论文100篇,总引用9000次,H指数33更多文章见链接:

1. Research gate: https://www.researchgate.net/profile/Shaohua-Liu-14/research

2. Google scholar: https://scholar.google.com/citations?user=zuhd0cAAAAAJ&hl=zh-CN

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46L. Huang, W. Li, F. Wei, S. Ke, H. Chen, C. Jing, J. Cheng, S. Liu*. Hierarchical Porous Covalent Organic Framework Nanosheets with Adjustable Large Mesopores. Chem, 2024, In press.

45L. Huang, W. Li, H. Zhang, S. Ke, H. Chen, J. Fu, C. Jing, J. Cheng, S. Liu*. Emerging Hierarchical Mesoporous Materials of Covalent Organic FrameworksSci. China Chem., 2024, In press.

44Z. Han*, X. Lan, Y. Xu, Y. Kang, Y. Liu, C. Zhou, L. Tong, B. Lu, X. Liu, Q. Wang, M. Yang, W. Li, S. Ke, L. Huang, S. Liu*Recent advance of single-atom metal@support catalysts and their applications in artificial electrocatalytic N2 Reduction ReactionAdv. Sustainable Syst., 2024, DOI: 10.1002/adsu.202400123.

43F. Wei, T. Zhang, R. Dong, Y. Wu, W. Li, J. Fu, C. Jing, J. Cheng*, X. Feng*S. Liu*Solution-based self-assembly synthesis of two-dimensional ordered mesoporous conducting polymer nanosheets with versatile propertiesNat. Protoc., 2023, 18, 2459-2484.

42. W. Li, H. Xu, H. Zhang, F. Wei, L. Huang, S. Ke, J. Fu, C. Jing, J. Cheng, S. Liu*Tuning electron delocalization of hydrogen-bonded organic framework cathode for high-performance zinc-organic batteriesNat Commun., 2023, 14, 5235.

41W. Li, L. Huang, H. Zhang, Y. Wu, F. Wei, T. Zhang, J. Fu, C. Jing, J. Cheng, S. Liu*Supramolecular Mineralization Strategy for Engineering Covalent Organic Frameworks with Superior Zn-I2 Battery Performances. Matter, 2023, 6, 2312–2323

40. W. Li, H. Xu, H. Zhang, F. Wei, T. Zhang, Y. Wu, L. Huang, J. Fu, C. Jing, J. Cheng, S. Liu*Designing Ternary Hydrated Eutectic Electrolyte Capable of Four-Electron Conversion for Advanced Zn-I2 Full BatteriesEnergy Environ. Sci., 2023, 16, 4502 - 4510

39. F. Wei, H. Xu, T. Zhang, W. Li, L. Huang, Y. Peng, H. Guo, Y. Wang, S. Guan, J. Fu, C. Jing, J. Cheng, S. Liu*. Mesoporous Poly(3,4-ethylenedioxythiophene):Poly(styrene sulfonate) as Efficient Iodine Host for High-Performance Zinc-Iodine Batteries. ACS Nano, 2023, 17, 20643–20653

38. F. Wei, T. Zhang, H. Xu, Y. Peng, H. Guo, Y. Wang, S. Guan, J. Fu, C. Jing, J. Cheng, S. Liu*. Two-Dimensional Mesoporous Naphthalene-Based Conductive Heteroarchitectures towards Long-Life, High-Capacity Zinc-Iodine Batteries. Adv. Funct. Mater., 2023, 34, 2310693

37. F. Wei, T. Zhang, J. Fu, C. Jing, J. Cheng, S. Liu*. Mesoporous Polymers: Soft Template Self-Assembly Synthesis and Applications. Sci. China Chem., 2023, 67, 1442-1464. 

36T. Zhang, F. Wei, Y. Wu, W. Li, L. Huang, J. Fu, C. Jing, J. Cheng, S. Liu*Polyoxometalate-Bridged Synthesis of Superstructured Mesoporous Polymers and Their Derivatives for Sodium-Iodine Batteries. Adv. Sci., 2023, 2301918

35Y. Wu, Y. Wang, F. Wei, T. Zhang, W. Li, L. Huang, R. Qi, J. Fu, C. Jing, J. Cheng, S. Liu*Engineering Cyano Groups into Hydrogen-Bonded Organic Supramolecules with Multi Redox Centers for High-Performance Li-Ion Battery CathodeEnergy StorMater. 2023, 63, 102993.

34F. Wei, B. Chen, J. Fu, Q. He, C. Jing, J. Cheng, M. Eguchi, J. Na,* Y. Yamauchi, S. Liu*. A universal strategy for large-scale and controlled formation of functional mesoporous monolayers. Chem. Eng. J, 2023, 460, 141504

33. B. Chen, F. Wei*, Z. Ma, Y. Peng, H. Guo,Y. Wang, S. Guan, J. Fu, C. Jing, J. Cheng, J. Xu*, S. Liu*. Interfacial self‐assembly growth of mesoporous polydopamine nanofilms for formaldehyde sensing. J. Polym. Sci. 2024, 62, 1588–1596

32. W. Li, L. Shi, Y. WuF. Wei, J. Fu, C. Jing, J. Cheng, S. Liu*Multistage self‐assembly engineered mesoporous conjugated polymer with isomeric nanoarchitecture towards superior performance Li-S batteries. Energy Stor. Mater. 2022, 53, 183-191.

31Y. Wu, J. Cui, Y. Ling, X. Wang, J. Fu, C. Jing, J. Cheng, Y. Ma, J. Liu*, S. Liu*. Polypyrrole Cubosomes with Ordered Ultralarge Mesopore for Controllable Encapsulation and Release of Albumin. Nano Lett., 2022, 22, 3685-3690.

30. L. Shi, W. Li, Y. Wu, F. Wei, T. Zhang, J. Fu, C. Jing, J. Cheng, S. Liu*. Controlled Synthesis of Mesoporous π-Conjugated Polymer Nanoarchitectures as Anodes for Lithium-Ion Batteries. Macromol. Rapid Comm., 2022, 2100897. 

29H. Luo, Y. V. Kaneti*, Y. Ai, Y. Wu, F. Wei, J. Fu, J. Cheng, C. Jing, B. Yuliarto, M. Eguchi, J. Na, Y. Yamauchi*, S. Liu*. Nanoarchitectured Porous Conducting Polymers: From Controlled Synthesis to Advanced Applications. Adv. Mater2021, 33, 2007318

28J. Cui, F.-F. Xing, H. Luo, J.-Q. Qin, Y. Li, Y. Zhong, F. Wei, J. Fu, C. Jing, J. Cheng, Z.-S. Wu, S. Liu, General synthesis of hollow mesoporous conducting polymers by dual-colloid interface co-assembly for high-energy-density micro-supercapacitors. J. Energy Chem., 2021, 62, 145-152.

27. F. Wei, Y. Zhong, H. Luo, Y. Wu, J. Fu, Q. He, J. Cheng, J. Na*, Y. Yamauchi*, S. Liu*. Soft template-mediated coupling construction of sandwiched mesoporous PPy/Ag nanoplates for rapid and selective NH3 sensing. J. Mater. Chem. A, 2021, 9, 8308-8316

26F. Wei, T. Wang, X. Jiang, Y. Ai, A. Cui, J. Cui, J. Fu, J. Cheng, L. Lei, Y. Hou*, S. Liu*, Controllably Engineering Mesoporous Surface and Dimensionality of SnO2 towards High-Performance CO2 Electroreduction, Adv. Funct. Mater., 2020, 30, 2002092. 

25Y. Ai, Z. Han, X. Jiang, H. Luo, J. Cui, Q. bao, C. Jing, J. Fu, J. Cheng, S. Liu*, General Construction of Two-Dimensional Ordered Mesoporous Iron-based Metal-Organic Nanomeshes, Small, 2020, 16, 2002701.

24Y. Ai, Y. You, F. Wei, X. Jiang, Z. Han, J. Cui, H. Luo,Y. Li, Z. Xu, S. Xu, J. Yang, Q. Bao, C. Jing, J. Fu, J. Cheng, S. Liu*, Hollow Bio-derived Polymer Nanospheres with Ordered Mesopores for Sodium-Ion Battery. Nano-Micro Letters 2020, 12 (1), 31.

23Z. Han, Y. Ai, X. Jiang, Y. You, F. Wei, H. Luo, J. Cui, Q. Bao, J. Fu, Q. He, J. Cheng*, S. Liu*, Pre-Polymerization enables Controllable Synthesis of Nanosheet-Based Porphyrin Polymers towards High-Performance Li-ion Battery. Chem. Eur. J. 2020, 26,10433–10438.

22X. Jiang, Y. Ai, Z. Han,Y. You, H. Luo, J. Cui, F. Wei, J. Fu, Q. He, J. Cheng*S. Liu*, Block Copolymer-Directed Synthesis of Conjugated Polyimine Nanospheres with Multichambered Mesopores. Macromol. Chem. Phys. 2020, 221, 2000061.

21Y. Wen, F. Wei, W. Zhang, A. Cui, J. Cui, C. Jing, Z. Hu, Q. He, J. Fu, S. Liu*, J. Cheng*, Two-dimensional mesoporous sensing materials. Chin. Chem. Lett. 2020, 31 (2), 521-524. 

20YWen, F. Wei, W. XuX. Jiang, J. Cui, Yan AiJ. ChenA. Cui, Z. Hu, J. Fu, S. Liu*Q. He*, and J. Cheng*Constructing polymers towards ultrathin nanosheets with dual mesopores and intrinsic photoactivityChem. Commun. 2020, 56 (21), 3191-3194. 

19. Z. LinS. Liu, W. Mao, H. Tian, N. Wang, N. Zhang, F. Tian, L. Han,* X. Feng,* and Y. Mai*, Tunable Self-Assembly of Diblock Copolymers into Colloidal Particleswith Triply Periodic Minimal Surfaces, Angew. Chem. Int. Ed., 2017, 129, 7241 –7246 (Impact Factor:11.71Co-first authors)

18S. Liu, F. Wang, R. Dong, T. Zhang, J. Zhang, Z. Zheng, Y. Mai, and X. Feng*, Bottom-Up Construction of 3D Macroporous Conducting Polymers, Small, 2017, 10.1002/smll.201604099.

17S. Liu, J. Zhang, R. Dong, P. Gordiichuk, T. Zhang, X. Zhuang, Y. Mai, F. Liu, A. Herrmann, X. Feng,Two-dimensional mesoscale-ordered conducting polymers. Angew. Chem. Int. Ed., 2016, 55 (40), 12516-12521(HOT” paper, highlighted by Nature Reviews Materialsdoi:10.1038/natrevmats.2016.79titled “a new mesoporous conductor”.)

16S. Liu, F. Wang, R. Dong, T. Zhang, J. Zhang, X. Zhuang, Y. Mai, X. Feng,Dual-template synthesis of 2D mesoporous polypyrrole nanosheets with controlled pore size. Adv. Mater., 2016, 28 (38), 8365-8370 (VIPpaper, highlighted by Materials views China.)

15S. Liu, P. Gordiichuk, Z.-S. Wu, Z. LiuW. Wei,M. Wagner, N. M.-N.,D. Wu, Y. Mai, A. Herrmann, K. Müllen, X. Feng, Patterning two-dimensional free-standing surfaces with mesoporous conducting polymersNat Commun., 2015, 6,8817.

14S. Liu, Y. Duan, X. Feng, J. Yang, S. Che, Synthesis of enantiopure carbonaceous nanotubes with optical activity. Angew. Chem. Int. Ed.,2013, 52 (27), 6858-6862.

13S. Liu, L. Han, Y. Duan, S. Asahina, O. Terasaki, Y. Cao, B. Liu, L. Ma, J. Zhang, S. Che, Synthesis of chiral TiO2 nanofibre with electron transition-based optical activity. Nat Commun., 2012, 3, 1215.

12S. Liu, H. Jia, L. Han, J. Wang, P. Gao, D. Xu, J. Yang, S. Che, Nanosheet-constructed porous TiO2–B for advanced lithium ion batteries. Adv. Mater., 2012, 24 (24), 3201-3204 (ESI Highly Cited Paper).

11S. Liu, G. Han, M. Shu, L. Han, S. Che, Monodispersed inorganic/organic hybrid spherical colloids: Versatile synthesis and their gas-triggered reversibly switchable wettability.(2010) J. Mater. Chem.,2010, 20 (44), 10001-10009.

10. S. Liu, Z. Zhao, Z. Wang, Photocatalytic reduction of carbon dioxide using sol-gel derived titania-supported CoPc catalysts, Photochem. Photobiol. Sci.,20076, 695-700.

9L. Ma, M. Zheng*, S. Liu*, Q. Li, Y. You, F. Wang, L. Ma, W. Shen, Synchronous exfoliation and assembly of graphene on 3D Ni(OH)2 for supercapacitor, Chem. Comm., 2016, 52, 13373 - 13376 (Corresponding author).

8. C. Lu,S. Liu,# Y. Su, F. Zhang, X. Zhuang, X. Feng, An interfacial engineering approach towards two-dimensional polyaniline nano-array for high performance electrochemical energy storage and conversion, J. Mater. Chem. A (Co-first authors), 2016, 5, 1567-1574.

7J. Zhang, S. Liu, H. Liang, X. Zhuang, R. Dong, X. Feng, Growth of hierarchical transition metal chalcogenide nanosheets for enhanced electrocataytic hydrogen evolution. Adv. Mater., 2015, 27(45), 7426-7431.

6. C. Wang, S. Liu, Y. Duan, Z. Huang, S. Che, Hard-templating of chiral TiO2 nanofibre with electron transition-based optical activity. Sci. Technol. Adv. Mat., 2015, 16 (5), 054206.

5Z. Wu, K. Parvez, S. Li, S. Yang, Z. Liu, S. Liu, X. Feng, K. Müllen, Alternating stacked Graphene-conducting polymer compact films with ultrahigh areal and volumetric capacitances for high-energy micro-supercapacitors. Adv. Mater., 2015, 27 (27), 4054-4061.

4. J. Feng, Y. Yao, L. Han, B. Sun, S. Liu, Z. Ma, S. Che, Silicone surfactant templating for mesoporous silica@ carbon complex, Micropor. Mesopor. Mater., 2013, 174, 62-66.

3Y. Hou, M. Lohe, J. Zhang, S. Liu, X. Feng, Vertically oriented cobalt selenide/NiFe layered-double-hydroxide nanosheets supported on exfoliated Graphene foil: An efficient 3D electrode for overall water splitting. Energy Environ. Sci., 2016, 9, 478-483.

2J. Zhang, T. Wang, P. Liuc, S. Liu, R. Dong, X. Zhuang, M. Chen and X. Feng, Engineering water dissociation sites in MoS2 nanosheets for accelerated electrocatalytic hydrogen production. Energy Environ. Sci2016, 9, 2789-2793.

1J. Zhang, T. Wang, D. Pohl, B. Rellinghaus, R. Dong, S. Liu, X. Zhuang, X. Feng, Interface engineering of MoS2/Ni3S2 heterostructures for highly enhanced electrochemical overall‐water‐splitting activity. Angew. Chem. Int. Ed., 2016,128 (23), 6814-6819.

荣誉及奖励

上海市高层次人才、上海市优博等。

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