李成超

作者: 时间:2015-10-25 点击数:

       

李成超Li chengchao 教授
所属学院: 轻工化工学院
导师类别:  博士生导师
职  务:
科研方向: 功能无机纳米材料合成,锂离子电池,超级电容器,电化学催化
联系方式:licc@gdut.edu.cn
硕士招生学院: 轻工化工学院

李成超,博士,教授,珠江学者,博士生导师,2013年获湖南大学/新加坡联合培养博士学位,广东工业大学百人计划特聘教授引进人才。目前从事新能源材料的设计合成与能源存储研究。在低维多孔材料制备与电化学储能材料及器件研究领域做出了一系列创新性的工作,取得了一批具有国际先进水平的研究与应用成果。研制出高能量密度、高功率密度和柔性器件用碳复合电极材料及电化学储能器件,部分成果实现了产业化。近五年,主持了自然科学基金项目 2 项、省部级课题4项,学术新人奖项目1项,并作为主要参与人参加了多项新加坡教育部科学基金,国家自然科学项目,重点项目等。以第一作者/通讯作者身份在《Journal of the American Chemical Society(影响因子:12.113)、《Advanced Materials(影响因子:17.493)、《Nano Energy(影响因子:10.325)等国际权威期刊上发表高水平学术论文35 篇,合作发表40篇,H因子25SCI 总引用次数 2000余次。

学科领域
科学学位:材料物理与化学应用化学
专业学位: 材料工程化学工程

教育经历:

2008.9~ 2012.10,博士生,新加坡国立大学/湖南大学

2006.9~ 2008.6, 硕士生,湖南大学

2002.9~ 2006.6, 本科生,湖南大学

工作经历:

2016.7~目前, 广东工业大学轻工化工学院,教授。

2013.2- 2016.6,新加坡南洋理工大学材料科学与工程学院,博士后研究员

研究方向:

1.      功能无机纳米孔材料的设计、制备及电化学储能研究;

2.      新型高效锂/钠电池电极材料研究;

3.      高效、长寿命氧还原电催化剂的合成与储能研究

在研科研项目(主持):

1.      分子水平碳复合磷酸盐正极材料的合成及其金属协调效应研究,国家自然科学基金,60万,主持。

2.      /钠电池电极材料分子水平碳复合研究,百人启动项目,100万,主持

3.      先进电化学储能材料,青年珠江学者,50万,主持

4.      层状钠离子电池层间距调控技术工艺研究,广东省教育厅,10万,主持

5.      基于前驱体法多孔无机胶体颗粒制备工艺及催化应用研究,湖南省自然科学基金,3万,主持

6.      多孔过渡金属氧化物的可控合成工艺研究,教育部, 3万,主持

已授权或申请发明专利:

1.一种绿色多孔Li4Ti5O12 颗粒正极材料制备方法 李成超,陈立宝,练庆旺

2.一种普适性的组分可调的多孔稀土基胶体球制备方法 李成超,陈立宝,练庆旺

主要研究论文如下:

1.         G. Zhang, Hou, H. Zhang, W. Zeng, F. Yan, C. C. Li*, H. G. Duan*, High-Performance and Ultra-Stable Lithium-Ion Batteries Based on MOF-Derived ZnO@ZnO Quantum Dots/C Core–Shell Nanorod Arrays on a Carbon Cloth Anode, Adv. Mater. 2015, 27, 2400-2405.

2.         G. H. Zhang, J. Zhu, W.  Zeng, S. Hou, F. Gong, F. Li, C. C. Li,* H. G. Duan, Tin Quantum Dots Embedded in Nitrogen-Doped Carbon Nanofibers As Excellent Anode for Lithium-Ion Batteries, Nano Energy,  2014,  9, 61-70.

3.         C. C. Li, H. C. Zeng, Coordination Chemistry and Antisolvent Strategy to Rare-Earth Solid-solution Colloidal Spheres, J. Am. Chem. Soc. 2012, 134, 19084-19091.

4.         G. Zhou, C. Wu, Y. Wei, C. C. Li*, W. F. Wei, L. B. Chen*, Tufted NiCo2O4 Nanoneedles Grown on Carbon Nanofibers with advanced electrochemical property for Lithium Ion Batteries, Electrochimica Acta, 2016, 222, 1878-1886.

5.         H. Geng, J. Yang, H. Yu, C. C. Li*, Carbon intercalated porous NaTi2(PO4)3 spheres as anodes for high-rate and ultralong-life sodium ion batteries, Materials Chemistry Frontiers, 2017, DOI: 10.1039/c7qm00048k

6.         Dalei Sun, Hong Yu, Hao Su, Feng Jin, Jincheng Liu, C. C. Li*, A general synthetic protocol for the synthesis of Ru-X (X = Rh, Pd, Ag) heterogeneous ultrathin nanowires with tunable composition, ChemCatChem, 2017, 9, 347-353.

7.         H. Yu, J. Yang, H. Geng, C. C. Li*, Facile preparation of carbon wrapped copper telluride nanowires as high performance anodes for sodium and lithium ion batteries, Nanotechnology, 2017, DOI: 10.1088/1361-6528/aa5b62

8.         C. C. Li,  W. Zhang, H. Ang, H. Yu,  B. Y. Xia, X. Wang, Y. H. Yang,  Y. Zhao, H. H. Hng, Q. Y. Yan, Compressed hydrogen gas-induced synthesis of Au–Pt core–shell nanoparticle chains towards high-performance catalysts for Li–O2 batteries, J. Mater. Chem. A, 2014, 2, 10676-10681.

9.         C. C. Li, H. Yu, Q.  Y.  Yan, H. H. Hng, Green synthesis of highly reduced graphene oxide by compressed hydrogen gas towards energy storage devices, Journal of Power sources, 2015,274, 310-317.

10.      C. C. Li, H. Yu, Q. Yan, H. H. Hng, N-doped carbon nanotubes encapsulated MnO nanoparticles derived from metal coordination polymer towards high performance Lithium-ion Battery Anodes, Electrochimica Acta, 2016, 187, 406-182.

11.      Qingwang Lian, Gang, Zhou,  Xiaohui Zeng,  Chen Wu, Yuehua Wei,  Chao Cui,  Weifeng Wei, Libao  Chen*, C. C. Li*, Carbon coated SnS/SnO2 hetereostructures wrapping on CNFs as an improved performanceanode for Li-ion batteries: lithiation-induced structural optimization upon cycling, ACS Appl. Mater. Interface 2016, 8 (44), pp 30256–30263.

12.       Yu Tan, Dalei Sun, Libao Chen and C. C. Li*, Porous Ru/RuOx/LDH as highly active heterogeneous catalysts for the aerobic oxidation of alcohols, New J. Chem., 201640, 8364-8370.

13.      Jun Yang, Laiquan Li, Hong Yu, Hongbo Geng, C. C. Li*, Xiaochen Dong*, Co/N-C Nanotubes with Increased Coupling Sites by Space-Confined Pyrolysis for High Electrocatalytic Activity, Green Energy & Environment, 2016, doi.org/10.1016/j.gee.2016.11.002.

14.      Hong Yu, Dalei Sun, Jincheng Liu, C. C. Li*, Monodisperse mesoporous Ta2O5 colloidal spheres as a highly effective photocatalyst for hydrogen production, Int. J. Hydrogen Energy, 2016, 41, 17225-17232.

15.     C. C. Li, T. H. Wang, Synthesis of Highly Aligned and Ultralong Coordination Polymer Nanowires and Their Calcination to Porous Manganese Oxide Nanostructures, J. Mater. Chem. 2012, 22, 4982-4988.

16.     C. C. Li, H. C. Zeng, Antisolvent Precipitation for Synthesis of Monodisperse Mesoporous Niobium Oxide Spheres as Highly Effective Solid Acid Catalysts, Chemcatchem 2012, 4, 1675-1682.

17.     C. C. Li, T. H. Wang, Sulfated Mesoporous Au/TiO2 Spheres as a Highly Active and Stable Solid Acid Catalyst, J. Mater. Chem. 2012, 22, 13216-13222.

18.     C. C. Li, L. B. Chen, Q. H. Li, E. D. Zhang, Z. Xu, T. H. Wang, Seed-free, aqueous synthesis of gold nanowires, CrystEngComm 2012, 14, 7549-7551.  

19.     C. C. Li, Q. H. Li, L. B. Chen, T. H. Wang, A Facile Titanium Glycolate Precursor Route to Mesoporous Spinel Li4Ti5O12 Spheres for High-rate Lithium Ion Batteries  ACS Applied materials & interfaces 2012, 4(3), 1233-1238.

20.     C. C. Li, T. H. Wang, Enhanced Gas Sensing Properties of ZnO/SnO2 Hierarchical Architectures by Glucose-induced Attachment, CrystEngComm 2011, 13, 1557-1563.

21.     C. C. Li, Q. H. Li, L. B. Chen, Topochemical Synthesis of Cobalt Oxide Nanowire Arraysfor High Performance Binderless Lithium Ion Batteries, J. Mater. Chem. 2011, 21, 11867-11872.

22.     C. C. Li, Q. H. Li, L. B. Chen, Topochemical Synthesis of Cobalt Oxide-based Porous Nanostructures for High Performance Lithium ion Batteries, Chem. Eur. J. 2011, 17, 1596-1604.

23.     C. C. Li, X. M. Yin, L. B. Chen, Q. H. Li, T. H. Wang, High capacity and excellent cycling stability of branched cobalt oxide nanowires as Li-insertion materials, Appl. Phys. Lett. 2010, 97, 043501-043503.

24.     C. C. Li, H. C. Zeng, Cobalt (hcp) Nanofibers with Pine-Tree-Leaf Hierarchical Superstructures, J. Mater. Chem. 2010, 20, 9187-9192.

25.     C. C. Li, X. M. Yin, L. B. Chen, Q. H. Li, T. H. Wang, Porous Carbon Nanofibers Derived from Conducting Polymer: Synthesis and Application in Lithium-Ion Batteries with High-Rate Capability, J. Phys. Chem. C 2009, 113, 13438-13442.  

26.     C. C. Li, X. M. Yin, T. H. Wang, H. C. Zeng, Morphogenesis of Highly Uniform CoCO3 Submicron Crystals and Their Conversion to Mesoporous Co3O4 for Gas Sensing Applications, Chem. Mater. 2009, 21, 4984-4992.

27.     C. C. Li, X. M. Yin, L. B. Chen, Q. H. Li, T. H. Wang, Synthesis of Cobalt Ions-based Coordination Polymer Nanowires and Their Conversion into Porous Co3O4 Nanowires with Good Lithium Storage Properties, Chem. Eur. J. 2009, 15, 5215-5221

28.     C. C. Li, Z. F. Du, H. C. Yu, T. H. Wang, Low-temperature sensing and high sensitivity of ZnO nanoneedles due to small size effect, Thin Slid Films 2009, 517, 5931-5934

29.     C. C. Li, Y, L. Liu, L. M. Li, Z. F. Du, S. J. Xu, M. Zhang, X. M. Yin, T. H. Wang, A novel amperometric biosensor based on NiO hollow nanospheres for biosensing glucose Talanta 2008, 77, 455

30.     C. C. Li, L. M. Li, Z. F. Du, H. C. Yu, Y. Y. Xiang, Y. Li, Y. Cai, T. H. Wang, Rapid and ultrahigh ethanol sensing based on Au-coated ZnO nanorods, Nanotechnology 2008, 19, 035501.

31.     Y. Tan, C. C. Li,* Fast-response and high sensitivity gas sensors based on SnO2 hollow spheres, Thin Slid Films, 2008, 516, 7840

32.     C. C. Li, Z. F. Du, L. M. Li, H. C. Yu, Q. Wan, T. H. Wang, Surface-depletion controlled gas sensing of ZnO nanorods grown at room temperature, Appl. Phys. Lett. 2007, 91, 032101-032103

33.      Zeng, Wei; Zhang, Guanhua; Wu, Xing, Li, Chengchao, Construction of hierarchical CoS nanowire@NiCo2S4 nanosheet arrays via one-step ion exchange for high-performance supercapacitors, Journal of Materials Chemistry, 2015, 47, 24033-24040.

34.      Hu, Lingling; Qu, Baihua; Li, Chengchao; et al. Facile synthesis of uniform mesoporous ZnCo2O4 microspheres as a high-performance anode material for Li-ion batteries, Journal of Materials Chemistry, 2013, 18, 5596-5602.

35.      Peng, Shengjie; Li, Linlin; Li, Chengchao; et al. In situ growth of NiCo2S4 nanosheets on graphene for high-performance supercapacitors, Chemical Communications , 2013, 49, 10178-10180

36.      Qu, Baihua; Hu, Lingling; Chen, Yuejiao, Cheng Chao Li; et al. Rational design of Au-NiO hierarchical structures with enhanced rate performance for supercapacitors, Journal of Materials Chemistry, 2013, 24, 7023-7026.

37.       Mei, Lin; Li, Chengchao; Qu, Baihua; et al.  Small quantities of cobalt deposited on tin oxide as anode material to improve performance of lithium-ion batteries, Nanoscale, 2012, 18, 5731-5737.

38.       Chen, L. B.; Yin, X. M.; Mei, L. Li, C. C.; et al. Mesoporous SnO2@carbon core-shell nanostructures with superior electrochemical performance for lithium ion batteries, Nanotechnology, 2012, 3, 035402.

39.      Yin, Xiaoming; Chen, Libao; Li, Chengchao; et al.Synthesis of mesoporous SnO(2) spheres via self-assembly and superior lithium storage propertiesElectrochimica Acta, 2011,  56,  2358-2363.

40.       Yin, Xiao Ming; Li, Cheng Chao; Zhang, Ming; et al.One-Step Synthesis of Hierarchical SnO(2) Hollow Nanostructures via Self-Assembly for High Power Lithium Ion BatteriesJournal of Physical Chemistry C ,2010, 114 , 8084-8088.

41.      Du, Zhifeng; Li, Chengchao; Li, Limiao; et al. Ammonia gas detection based on polyaniline nanofibers coated on interdigitated array electrodes, Journal of Materials Science-Materials in Electronics 2011, 22, 418-421.

42.      Yin, Xiao Ming; Li, Cheng Chao; Zhang, Ming; et al. SnO(2) monolayer porous hollow spheres as a gas sensor Nanotechnology, 2009, 20, 19748-19748

43.        Zhang, J.; Chen, L. B.; Li, C. C.; et al.Amorphous SnO(2)-SiO(2) thin films with reticular porous morphology for lithium-ion batteries Applied Physics Letters, 2008,  93,  

44.        Chen, Xian; Li, Chengchao; Liu, Yanli; et al. Electrocatalytic activity of horseradish peroxidase/chitosan/carbon microsphere microbiocomposites to hydrogen peroxideTalanta, 2008,  77,  37-41.

45.        Li, L. M.; Li, C. C.; Zhang, J.; et al. Bandgap narrowing and ethanol sensing properties of In-doped ZnO nanowires Nanotechnology Volume: 18 Issue: 22 Published: JUN 6 2007

46.      Li, L. M.; Du, Z. F.; Li, C. C.; et al. Ultralow threshold field emission from ZnO nanorod arrays grown on ZnO film at low temperatureNanotechnology Volume: 18 Issue: 35 Published: SEP 5 2007

47.       Du, Zhifeng; Li, Chengchao; Li, Limiao; et al. Simple fabrication of a sensitive hydrogen peroxide biosensor using enzymes immobilized in processable polyaniline nanofibers/chitosan filmMaterials Science & Engineering C-Materials For Biological Applications Volume: 29 Issue: 6 Pages: 1794-1797

48.       Zhang, Ming; Li, Limiao; Du, Zhifeng; Li, Chengchao, et al. Fast Response Amperometric Biosensor for H(2)O(2) Detection Based on Horseradish-Peroxidase/Titania-Nanowires/Chitosan Modified Glassy Carbon ElectrodeSensor Letters Volume: 7 Issue: 4 Pages: 543-549 Published: AUG 2009

49.      Yao, Ke Xin; Liu, Xin; Li, Zheng; Li, Cheng Chao; Zeng, Hua Chun; Han, Yu Preparation of a RuNanoparticles/DefectiveGraphene Composite as a Highly Efficient AreneHydrogenation CatalystChemcatchem2012, 41938–1942.

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