李永亮

作者: 发布时间: 2018-05-25 浏览次数: [ ]

 

Welcome to Dr. Li's research group at Shenzhen University!  

 


        Research Interests    

Our research is focused on the synthesis and characterization of nano-/micro-structured materials and their applications in electrochemical energy storage and conversion systems. The research includes controllable synthesis of materials, quasi/in-situ characterization of electrochemical properties and device design and assembly:

课题研究方向是新型纳米/微米结构材料的合成、表征及其在电化学能源储存与转化中的应用。研究内容包括材料可控合成、电化学性能表征和器件设计与组装等方面:  

1. Controllable Synthesis of Materials
1. 材料的可控合成

The structure, composition and reaction process of nano-/micro-structured materials are designed and simulated by molecular dynamics simulation and first-principles calculations. The functional composite materials with distinguished physical and chemical properties are synthesized by various advanced methods, such as atomic layer deposition, magnetron sputtering, chemical vapor deposition and electrospinning, etc.  

基于分子动力学模拟及第一性原理计算对纳米/微米材料的结构、成分及反应过程进行设计与模拟,依托先进的方法,如原子层沉积、磁控溅射、微波水热、化学气相沉积、静电纺丝等合成制备出新型的功能化复合材料。  

2. Quasi/in-situ Characterization of Electrochemical Properties
2. 准原位/原位电化学性能表征

The electrochemical properties of the materials are characterized by quasi/in-situ techniques, such as in-situ X-ray diffraction, in-situ infrared spectroscopy, scanning electrochemical microscopy, and the interfacial transports and reactions of electrons and ions at bulk-surface interfaces are investigated from atomic level to macro level.  

利用准原位/原位技术,如原位X射线衍射、原位红外光谱、扫描电化学显微镜等对材料的电化学性能与电子及离子在体相及界面的输运、反应等行为进行微观尺度的研究。  

3. Device Design and Assembly
3. 器件设计与组装

For the practical applications, the developed materials are applied in new energy storage and conversion devices, such as flexible batteries, lithium/sodium-air batteries, and the design, assembly and performance of devices are studied.  

针对实际应用,将开发的材料用于新型的能量储存与转化器件,如柔性电池、锂/钠空气电池中,研究器件的设计、组装及性能。  



 

   
Research Funding    
国家自然科学基金项目(51502177) 2016.01-2018.12 项目负责人
教育部留学回国人员科研启动基金项目([2014]1685) 2014.09-2016.09 项目负责人
广东省自然科学基金项目(2014A030310323) 2015.01-2018.01 项目负责人
深圳市高端人才启动项目(827000039) 2015.01-2018.01 项目负责人
深圳市基础研究项目(JCY20140418182819158) 2015.01-2016.12 项目负责人
beat365体育官网平台青年教师启动项目(201445) 2014.04-2016.04 项目负责人

        Group Member    

Principal Investigator

Dr. Yongliang Li (李永亮), Assistant Professor
Associate Director of Department of Applied Chemistry
Associate Research Fellow (2017.01-present)
Assistant Professor (2013.09-present)



Office: P316
Tel: +86-755-26536627
Email: liyli@szu.edu.cn
Dr. Li's ResearcherID
Dr. Li's Research Gate Profile

Postdoctoral Fellow


Muhammad Rauf (Ph.D.)
王睿
Fuel Cells
燃料电池
Email: rauf@qq.com

Research Assistant    
Dingtao Ma (Ph.D. candidate)
马定涛
Secondary Batteries
新型二次电池
Email: madingtao@foxmail.com
   

Graduate Students


Jinhuan Lin
吝金环
Jingbo Yang
杨静波
Na-ion Batteries
钠离子电池
Lithium/Air Batteries
锂/空气电池
Email: 2151110207@email.szu.edu.cn Email: 2150110212@email.szu.edu.cn

Bingru Guo
郭丙如
Xiang Sun
孙翔
Na-ion Batteries
钠离子电池
Fuel Cells
燃料电池
Email: ru-bidium@qq.com Email: sunxiang2016@email.szu.edu.cn

Hao Chen
陈浩
Dan Gao
高丹
Na-ion Batteries
钠离子电池
Solid State Li-ion Batteries
固态锂离子电池
Email: 2161110229@email.szu.edu.cn Email: 15090788561@163.com

Xinxin Yang
杨欣欣
Hong Xiang
向鸿
Fuel Cells
燃料电池
Solid State Li/Air Batteries
固态锂空气电池
Email: 964224057@qq.com Email: 1126229224@qq.com


Shiyuan Gao
高世远


Heat Storage Materials
蓄热材料

Email: 1242169580@qq.com

Undergraduate Students    






     
Graduate Students (Alumni)
   
Maosheng Wu (吴茂生) M.S. (2013-2016) Fuel Cells (燃料电池)
Wanhui Li (黎婉慧) M.S. (2014-2017) Li/Air Batteries (锂/空气电池)
     
Undergraduate Students (Alumni)
   
Bin Chen (陈缤) B.S. (2015) Fuel Cells (燃料电池)
Xiaobing Wen (文小冰) B.S. (2015) Li/Air Batteries (/空气电池)
Ruobing Chen (陈若冰) B.S. (2015) Metal/Air Batteries (金属/空气电池)
Hongzhi Liu (刘弘智) B.S. (2016) Fuel Cells (燃料电池)
Mincong Xiao (萧敏聪) B.S. (2016) Li/Air Batteries (/空气电池)
Yuyang Liu (刘雨阳) B.S. (2017) Li/Air Batteries (/空气电池)
Jiaxin Wen (温嘉欣) B.S. (2017) Fuel Cells (燃料电池)
Xuehua Deng (邓雪华) B.S. (2017) Fuel Cells (燃料电池)
             
Publications
   

74. Lin, S.; Li, Y.*; Luo, S.; Ren, X.*; Deng, L.; Mi, H.; Zhang, P.; Sun, L.; Gao, Y., 3D-ordered porous nitrogen and sulfur Co-Doped carbon supported PdCuW nanoparticles as efficient catalytic cathode materials for Li-O2 batteries. Electrochimica Acta 2018, 272, 33-43. [link]
73. Sun, X.; Li, W.; Mi, H.; Li, Y.*; Zhang, P.; Ren, X., Nitrogen and sulfur co-doped graphene supported PdW alloys as highly active electrocatalysts for oxygen reduction reaction.International Journal of Hydrogen Energy 2018, 43, 5530-5540. [link]
72. Yao, L.; Wu, Q.; Zhang, P.*; Zhang, J.; Wang, D.; Li, Y.; Ren, X.; Mi, H.; Deng, L.*; Zheng, Z.*,  Scalable 2D hierarchical porous carbon nanosheets for flexible supercapacitors with ultrahigh energy density. Advanced Materials 2018, 30, 1706054. [link]    
71. Ma, D.; Li, Y.; Yang, J.; Mi, H.; Luo, S.; Deng, L.; Yan, C.; Rauf, M.; Zhang, P.*; Sun, X.*; Ren, X.; Li, J.; Zhang, H., New strategy for polysulfide protection based on atomic layer deposition of TiO2 onto ferroelectric-encapsulated cathode: toward ultrastable free-standing room temperature sodium-sulfur batteries. Advanced Functional Materials 2018, 28, 1705537. [link]    
70. Ma, D.; Li, Y.; Yang, J.; Mi, H.; Luo, S.; Deng, L.; Yan, C.; Zhang, P.*; Lin, Z.*; Ren, X.; Li, J.; Zhang, H., Atomic layer deposition-enabled ultrastable freestanding carbon-selenium cathodes with high mass loading for sodium-selenium battery. Nano Energy 2018, 43, 317-325. [link]    
69. Yang, J.; Li, Y.*; Mi, H.*; Zhang, P.; Deng, L.; Sun, L., Ren, X., Enhanced electrocatalytic performance of Fe-TiO2/N-doped graphene cathodes for rechargeable Li-O2 batteries. Journal of Solid State Electrochemistry 2018, 22, 909-917. [link]    

2017    
68. Zhang, C.; Deng, L.; Zhang, P.*; Ren, X.; Li, Y.; He, T., Electrospun NiCo2S4 with extraordinary electrocatalytic activity as counter electrodes for dye-sensitized solar cells. Journal of Solid State Electrochemistry 2017, 21, 3579-3588. [link]    
67. Yang, J.; Mi, H.; Luo, S.; Li, Y.*; Zhang, P.*; Deng, L.; Sun, L.; Ren, X., Atomic layer deposition of TiO2 on nitrogen-doped carbon nanofibers supported Ru nanoparticles for flexible Li-O2 battery: A combined DFT and experimental study. Journal of Power Sources 2017, 368, 88-96. [link]    
66. Yang, J.; Ma, D.; Li, Y.*; Zhang, P.*; Mi, H.; Deng, L.; Sun, L.; Ren, X., Atomic layer deposition of amorphous oxygen-deficient TiO2-x on carbon nanotubes as cathode materials for lithium-air batteries. Journal of Power Sources 2017, 360, 215-220. [link]    
65. Zhong, W.; Chen, J.; Zhang, P.*; Deng, L.*; Yao, L.; Ren, X.; Li, Y.; Mi, H.; Sun, L., Air plasma etching towards rich active sites in Fe/N-porous carbon for the oxygen reduction reaction with superior catalytic performance. Journal of Materials Chemistry A 2017, 5, 16605-16610. [link]    
64. Sun, L.*; Deng, Q.; Li, Y.; Mi, H.; Wang, S.; Deng, L.; Ren, X.*; Zhang, P., CoO-Co3O4 heterostructure nanoribbon/RGO sandwich-like composites as anode materials for high performance lithium-ion batteries. Electrochimica Acta 2017, 241, 252-260. [link]    
63. Lin, J.; Ma, D.; Li, Y.*; Zhang, P.*; Mi, H.; Deng, L.; Sun, L.; Ren, X., In situ nitrogen doping of TiO2 by plasma enhanced atomic layer deposition for enhanced sodium storage performance. Dalton transactions 2017, 46, 13101-13107. [link]    
62. Sun, L.; Yi, X.; Shi, C.; Ren, X.*; Gao, Y.; Li, Y.; Zhang, P., A Li-rich Li[Li0.2Ni0.2Mn0.6]O2 cathode material in situ coated with polyaniline. International Journal of Electrochemical Science 2017, 12, 4756-4767. [link]    
61. Li, Y.; Lin, S.; Ren, X.*; Mi, H.; Zhang, P.; Sun, L.; Deng, L.; Gao, Y., One-step rapid in-situ synthesis of nitrogen and sulfur co-doped three-dimensional honeycomb-ordered carbon supported PdNi nanoparticles as efficient electrocatalyst for oxygen reduction reaction in alkaline solution. Electrochimica Acta 2017, 253, 445-454. [link]    
60. Li, Y.; Ma D.; Zhang P.*, Electrospinning preparation and performance of lithium-rich manganese-based lithium ion battery cathode material. Jouranl of Shenzhen University. Science and Engineering 2017, 34, 132-137. [link]    
59. Zhang, C.; Deng, L.; Zhang, P.*; Ren, X.; Li, Y.; He, T., Hydrothermal Synthesis of NiS2 cubes with high performance as counter electrodes in dye-sensitized solar cells. International Journal of Electrochemical Science 2017, 12, 4610-4618. [link]    
58. Sun, L.; Wang, J.; Li, Y.; Deng, L.; Wang, Y.; Ren, X.; Zhang, P.*, Preparation and electrochemical properties of Si0.8Sb/C nanofiber composite anode materials for lithium-ion batteries. Journal of Solid State Electrochemistry 2017, 21, 2281-2289. [link]    
57. Li, Q.; Zhang, P.; Yao, L.; Deng, L.*; Ren, X.; Li, Y., Recent research progress on lead-free or less-lead perovskite solar cells.International Journal of Electrochemical Science2017, 12, 4915-4927.[link]    
56. Zhang, C.; Deng, L.; Zhang, P.*; Ren, X.; Li, Y.; He, T., Electrospun FeS nanorods with enhanced stability as counter electrodes for dye-sensitized solar cells. Electrochimica Acta 2017, 229, 229-238. [         link         ]    
55. Sun, L.; Xiong, W.; Mi, H.; Li, Y.; Zhuo, H.; Zhang, Q.; He, C.*; Liu, J.*, In situ coating of graphene-like sheets on Li4Ti5O12 particles for lithium-ion batteries. Electrochimica Acta 2017, 230, 508-513. [         link         ]    
54. Sun, L.; Liao, B.; Ren, X.*; Li, Y.*; Zhang, P.; Deng, L.; Gao, Y., Ternary PdNi-based nanocrystals supported on nitrogen-doped reduced graphene oxide as highly active electrocatalysts for the oxygen reduction reaction. Electrochimica Acta 2017, 235, 543-552. [         link         ]    
53.Ren, X.*; Liao, B.; Li, Y.*; Zhang, P.; Deng, L.; Gao, Y., Facile synthesis of PdSnCo/nitrogen-doped reduced graphene as a highly active catalyst for lithium-air batteries. Electrochimica Acta 2017, 228, 36-44. [         link         ]    
52.Deng, L.; Zhong, W.; Wang, J.; Zhang, P.*; Fang, H.; Yao, L.; Liu, X.; Ren, X.; Li, Y., The enhancement of electrochemical capacitance of biomass-carbon by pyrolysis of extracted nanofibers. Electrochimica Acta 2017, 228, 398-406. [         link         ]    
51. Zhang, C.; Deng, L.; Zhang, P.*; Ren, X.; Li, Y.; He, T., Mesoporous NiCo2O4 networks with enhanced performance as counter electrodes for dye-sensitized solar cells. Dalton transactions 2017,46, 4403-4411.         [         link         ]    

2016    
50. Zhang, P.*; Huang, L.; Li, Y.*; Ren, X.; Deng, L.; Yuan, Q., Si/Ni3Si-encapulated carbon nanofiber composites as three-dimensional network structured anodes for lithium-ion batteries. Electrochimica Acta 2016, 192, 385-391.         [         link         ]    
49. Zhang, C.-L.; Zhang, P.-X.*; Yun, S.-N.; Li, Y.-L.; He, T.-S., Recent progress on preparation of transition metal compounds as counter electrodes for dye-sensitized solar cells. Journal of Inorganic Materials 2016, 31, 113-122.         [         link         ]    
48. Zhang, C.; Li, Y.; Deng, L.; Zhang, P.*; Ren, X.; Yun, S., In situ growth of morphology-controllable nickel sulfides as efficient counter electrodes for dye-sensitized solar cells. Journal of Solid State Electrochemistry 2016, 20, 2373-2382.         [         link         ]    
47. Sun, L.*; Deng, Q.; Li, Y.*; Deng, L.; Wang, Y.; Ren, X.; Zhang, P., Solvothermal synthesis of ternary Cu2O-CuO-RGO composites as anode materials for high performance lithium-ion batteries. Electrochimica Acta 2016, 222, 1650-1659.         [         link         ]    
46. Sun, L.*; Deng, Q.; Fang, B.; Li, Y.; Deng, L.; Yang, B.; Ren, X.; Zhang, P., Carbon-coated LiFePO4 synthesized by a simple solvothermal method. Crystengcomm 2016, 18, 7537-7543.         [         link         ]    
45. Ren, X.*; Huang, X.; Liu, T.; Zhang, P.; Sun, L.; Li, Y., Preparation and properties of V2O5 coated Li[Li0.2Mn0.54Ni0.13Co0.13]O2 cathode material. Rare Metal Materials And Engineering 2016, 45, 111-114.    
44. Ren, X.*; Cai, H.; Zhang, W.; Li, Y.*; Zhang, P.; Deng, L.; Sun, L., SnSbCux alloy composite anode materials for high performance lithium-ion batteries. International Journal of Electrochemical Science2016, 11, 9508-9518.         [         link         ]    
43. Ren, X.*; Cai, H.; Zhang, L.; Zhang, P.; Li, Y.; Sun, L., Preparation and electrochemical properties of LiNi1/3Co1/3Mn1/3O2/C composite cathode materials for lithium-ion battery. Rare Metal Materials And Engineering 2016, 45, 254-257.    
42. Mi, H.; Li, F.; Xu, S.; Li, Z.; Chai, X.; He, C.; Li, Y.*; Liu, J.*, A tremella-like nanostructure of silicon@void@graphene-like nanosheets composite as an anode for lithium-ion batteries. Nanoscale Research Letters 2016, 11, 204.         [         link         ]    
41. Mi, H.; Li, F.; He, C.; Chai, X.; Zhang, Q.; Li, C.; Li, Y.*; Liu, J.*, Three-dimensional network structure of silicon-graphene-polyaniline composites as high performance anodes for Lithium-ion batteries. Electrochimica Acta 2016, 190, 1032-1040.         [         link         ]    
40. Ma, D.; Zhang, P.*; Li, Y.*; Abdelkader, A. M.; Singh, D. P.; Ren, X.; Deng, L., 3D Networks of carbon-coated magnesium-doped olivine nanofiber as binder-free cathodes for high-performance Li-ion battery. Advanced Materials Interfaces 2016, 3, 1600241.         [         link         ]    
39. Ma, D.; Li, Y.; Zhang, P.*; Cooper, A. J.; Abdelkader, A. M.*; Ren, X.; Deng, L., Mesoporous Li1.2Mn0.54Ni0.13Co0.13O2 nanotubes for high-performance cathodes in Li-ion batteries. Journal of Power Sources 2016, 311, 35-41.         [         link         ]    
38. Ma, D.; Li, Y.; Wu, M.; Deng, L.; Ren, X.; Zhang, P.*, Enhanced cycling stability of Li-rich nanotube cathodes by 3D graphene hierarchical architectures for Li-ion batteries. Acta Materialia 2016, 112, 11-19.         [         link         ]    
37. Liu, L.; Zhang, P.*; Li, Y.*; Ren, X.; Deng, L., Three-dimensional nanoarchitecture SnSbZn-C composite nanofibers as anode materials for lithium-ion batteries. Rsc Advances 2016, 6, 52746-52753.         [         link         ]    
36. Li, Y.*; Li, W.; Ke, T.; Zhang, P.*; Ren, X.; Deng, L., Microwave-assisted synthesis of sulfur-doped graphene supported PdW nanoparticles as a high performance electrocatalyst for the oxygen reduction reaction. Electrochemistry Communications 2016, 69, 68-71.         [         link         ]    
35. Deng, L.; Zhang, W.; Ren, X.*; Zhang, P.; Li, Y.; Sun, L.; Gao, Y., Facile synthesis of N-doped carbon-coated Si/Cu alloy with enhanced cyclic performance for lithium ion batteries. Rsc Advances 2016, 6, 78100-78105.         [         link         ]    
34. Deng, L.; Fang, H.; Zhang, P.*; Abdelkader, A.; Ren, X.; Li, Y.; Xie, N., Nitrogen and sulfur dual-doped carbon microtubes with enhanced performances for oxygen reduction reaction. Journal of the Electrochemical Society 2016, 163, H343-H349.         [         link         ]    

2015    
33. Wang, Y.; Zhang, P.*; Wang, J.; Li, Y.*; Ren, X., Lithium storage characteristics and electrochemical performance of Si-Sb-Ag composite anode materials. International Journal of Electrochemical Science 2015, 10, 9652-9665.         [         link         ]    
32. Ma, D.; Zhang, P.*; Li, Y.*; Ren, X., Li1.2Mn0.54Ni0.13Co0.13O2-encapsulated carbon nanofiber network cathodes with improved stability and rate capability for Li-ion batteries. Scientific Reports 2015, 5, 11257.         [         link         ]    
31. Li, Y.; Zhang, W.; Cai, H.; Wang, J.; Ren, X.*; Zhang, P., SnSb-ZnO composite materials as high performance anodes for lithium-ion batteries. Rsc Advances 2015, 5, 105643-105650.         [         link         ]    
30. Li, Y.; Huang, L.; Zhang, P.*; Ren, X.; Deng, L., Synthesis of Si-Sb-ZnO composites as high-performance anodes for lithium-ion batteries. Nanoscale Research Letters 2015, 10, 414.         [         link         ]    

2014    
        29. Yadegari, H.; Li, Y.; Banis, M. N.; Li, X.; Wang, B.; Sun, Q.; Li, R.; Sham, T.-K.; Cui, X.; Sun, X.*, On rechargeability and reaction kinetics of sodium-air batteries. Energy & Environmental Science 2014, 7, 3747-3757.         [         link         ]    
28. Mi, H.; Li, Y.; Zhu, P.; Chai, X.; Sun, L.; Zhuo, H.; Zhang, Q.; He, C.; Liu, J.*, In situ coating of nitrogen-doped graphene-like nanosheets on silicon as a stable anode for high-performance lithium-ion batteries. Journal of Materials Chemistry A 2014, 2, 11254-11260.         [         link         ]    

2006-2013 (Papers published before joining SZU)    
27. Wang, J; Li, Y; Sun, X.*, Challenges and opportunities of nanostructured materials for aprotic rechargeable lithium-air batteries. Nano Energy 2013, 2, 443-467. [link]                
   
26. Wang, J.; Yang, J.; Zhang, Y.; Li, Y.; Tang, Y.; Banis, M. N.; Li, X.; Liang, G.; Li, R.; Sun, X.*, Interaction of carbon coating on LiFePO4: A local visualization study of the influence of impurity phases. Advanced Functional Materials 2013, 23, 806-814.         [         link         ]    
25. Li, Y.; Yadegari, H.; Li, X.; Banis, M. N.; Li, R.; Sun, X.*, Superior catalytic activity of nitrogen-doped graphene cathodes for high energy capacity sodium-air batteries. Chemical Communications 2013, 49, 11731-11733.         [         link         ]    
24. Li, Y.; Li, X.; Geng, D.; Tang, Y.; Li, R.; Dodelet, J.-P.*; Lefevre, M.; Sun, X.*, Carbon black cathodes for lithium oxygen batteries: Influence of porosity and heteroatom-doping. Carbon 2013, 64, 170-177.         [         link         ]    
23. Li, Y.; Wang, J.; Zhang, Y.; Banis, M. N.; Liu, J.; Geng, D.; Li, R.; Sun, X.*, Facile controlled synthesis and growth mechanisms of flower-like and tubular MnO2 nanostructures by microwave-assisted hydrothermal method. Journal of Colloid And Interface Science 2012, 369, 123-128.         [         link         ]    
22. Li, Y.; Wang, J.; Li, X.; Geng, D.; Banis, M. N.; Tang, Y.; Wang, D.; Li, R.; Sham, T.-K.; Sun, X.*, Discharge product morphology and increased charge performance of lithium-oxygen batteries with graphene nanosheet electrodes: the effect of sulphur doping. Journal of Materials Chemistry 2012, 22, 20170-20174.         [         link         ]    
21. Li, Y.; Wang, J.; Li, X.; Geng, D.; Banis, M. N.; Li, R.; Sun, X.*, Nitrogen-doped graphene nanosheets as cathode materials with excellent electrocatalytic activity for high capacity lithium-oxygen batteries. Electrochemistry Communications 2012, 18, 12-15.         [         link         ]    
20. Li, X.; Yang, J.; Hu, Y.; Wang, J.; Li, Y.; Cai, M.; Li, R.; Sun, X.*, Novel approach toward a binder-free and current collector-free anode configuration: highly flexible nanoporous carbon nanotube electrodes with strong mechanical strength harvesting improved lithium storage. Journal of Materials Chemistry 2012, 22, 18847-18853.         [         link         ]    
19. Li, X.; Meng, X.; Liu, J.; Geng, D.; Zhang, Y.; Banis, M. N.; Li, Y.; Yang, J.; Li, R.; Sun, X.*; Cai, M.; Verbrugge, M., Tin oxide with controlled morphology and crystallinity by atomic layer deposition onto graphene nanosheets for enhanced lithium storage. Advanced Functional Materials 2012, 22, 1647-1654.         [<?xml:namespace prefix = "style="font-family" />                             link         ]    
18.         Yang, J.; Wang, J.; Li, X.; Wang, D.; Liu, J.; Liang, G.; Gauthier, M.; Li, Y.; Geng, D.; Li, R.; Sun, X.*, Hierarchically porous LiFePO4/nitrogen-doped carbon nanotubes composite as a cathode for lithium ion batteries. Journal of Materials Chemistry 2012, 22, 7537-7543. [link]    
17.         Liu, J.; Li, X.; Yang, J.; Geng, D.; Li, Y.; Wang, D.; Li, R.; Sun, X.*; Cai, M.; Verbrugge, M., Microwave-assisted hydrothermal synthesis of nanostructured spinel Li4Ti5O12 as anode materials for lithium ion batteries.         Electrochimica Acta         2012, 63, 100-104. [link]                
   
16. Li, X.; Liu, J.; Zhang, Y.; Li, Y.; Liu, H.; Meng, X.; Yang, J.; Geng, D.; Wang, D.; Li, R.; Sun, X., High concentration nitrogen doped carbon nanotube anodes with superior Li+ storage performance for lithium rechargeable battery application. Journal of Power Sources 2012, 197, 238-245.         [         link         ]    
15. Geng, D.; Hu, Y.; Li, Y.; Li, R.; Sun, X.*, One-pot solvothermal synthesis of doped graphene with the designed nitrogen type used as a Pt support for fuel cells. Electrochemistry Communications 2012, 22, 65-68.         [         link         ]    
14.         Geng, D.; Chen, Y.; Chen, Y.; Li, Y.; Li, R.; Sun, X.*; Ye, S.; Knights, S., High oxygen-reduction activity and durability of nitrogen-doped graphene. Energy & Environmental Science 2011, 4, 760-764. [link]                
   
13. Li, Y.; Wang, J.; Li, X.; Liu, J.; Geng, D.; Yang, J.; Li, R.; Sun, X.*, Nitrogen-doped carbon nanotubes as cathode for lithium-air batteries. Electrochemistry Communications 2011, 13, 668-672.         [         link         ]    
12. Li, Y.; Wang, J.; Li, X.; Geng, D.; Li, R.; Sun, X.*, Superior energy capacity of graphene nanosheets for a nonaqueous lithium-oxygen battery. Chemical Communications 2011, 47, 9438-9440.         [         link         ]    
11. Zhao, Z.; Fang, X.; Li, Y.; Wang, Y.; Shen, P.*; Xie, F.; Zhang, X.*, The origin of the high performance of tungsten carbides/carbon nanotubes supported Pt catalysts for methanol electrooxidation. Electrochemistry Communications 2009, 11, 290-293.         [         link         ]    
10.         Hu, F.; Shen, P.*; Li, Y.; Liang, J.; Wu, J.; Bao, Q.; Li, C.; Wei, Z., Highly stable Pd-based catalytic nanoarchitectures for low temperature fuel cells. Fuel Cells 2008, 8, 429-435. [link]    
9. Yang, J.; Li, Y.; Huang, Y.; Liang, J.; Shen, P.*, Dynamic conducting effect of WO3/PFSA membranes on the performance of proton exchange membrane fuel cells. Journal of Power Sources 2008, 177, 56-60.         [         link         ]    
8. Liang, J.; Li, Y.; Huang, Y.; Yang, J.; Tang, H.; Wei, Z.*; Shen, P.*, Sodium borohydride hydrolysis on highly efficient Co-B/Pd catalysts. International Journal of Hydrogen Energy 2008, 33, 4048-4054.         [         link         ]    
7. Li, Y.; Hu, F. P.; Wang, X.*; Shen, P.*, Anchoring metal nanoparticles on hydrofluoric acid treated multiwalled carbon nanotubes as stable electrocatalysts. Electrochemistry Communications 2008, 10, 1101-1104.         [         link         ]    
6. Hu, F. P.; Wang, Z.; Li, Y.; Li, C.; Zhang, X.; Shen, P.*, Improved performance of Pd electrocatalyst supported on ultrahigh surface area hollow carbon spheres for direct alcohol fuel cells. Journal of Power Sources 2008, 177, 61-66.         [         link         ]    
5. Zheng, H.; Li, Y.; Liang, H.; Shen, P.-K.*, Methanol oxidation on Pd-based electrocatalysts. Acta Physico-Chimica Sinica 2007, 23, 993-996. [         link         ]    
4. Shen, P.*; Wang, S.; Hu, Z.; Ll, Y.; Zeng, R.; Ruang, Y., Hydrogen production by alcohol electrolysis. Acta Physico-Chimica Sinica 2007, 23, 107-110.         [         link         ]    
3. Zheng, H.; Li, Y.; Chen, S.; Shen, P.*, Effect of support on the activity of Pd electrocatalyst for ethanol oxidation. Journal of Power Sources 2006, 163, 371-375.         [         link         ]    
2. Liang, J.; Li, Y.; Shen, P.*, Research progress in the key components for PEMFC. Battery Bimonthly 2006, 36, 226-8.    
1. Hu, Z.; Li, Y.; Shen, P.*, Hydrogen production by methanol electrolysis. Battery Bimonthly 2006, 36, 383-4.    

Postdoctoral Positions

Postdoctoral positions are available in research areas of Electrochemical energy conversion and storage systems, including batteries, fuel cells, etc.    

Graduate Students

Graduate students with the background of electrochemistry and materials science are welcomed to join us, our group will offer a highly interdisciplinary research program on material synthesis, characterization, and device fabrication.    

Undergraduate students

Highly motivated undergraduate students are welcomed to join our group. Basic skills on developing innovative ideas and conducting research will be trained.    
     
Please contact Dr. Li for details (
liyli@szu.edu.cn).

 

 

职务 副院长 职称 特聘研究员
分工 科研、实验室 办公电话 0755-26931162
Email liyli@szu.edu.cn 个人课题组
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