宝马娱乐在线城手机版

张丽莉

宝马娱乐在线城手机版:协议研究员

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职称 协议研究员 邮箱
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Email:g0600003@gmail.com

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Education

2006.08-2011.02      National University of Singapore, Ph.D

2000.07-2004.05     National University of Singapore, B. Eng. (First Class Honors)

Work Experience

2018.10-Present    University of Electronic Science and Technology of China, Adjunct Professor

2012.10-Present    Institute of Chemical and Engineering Sciences, Singapore, Scientist   

2011.05-2012.07   University of Texas at Austin, USA, Research Fellow

2010.08-2011.04   National University of Singapore, Singapore, Research Engineer

2004.08-2006.01   Micron Technology Pte Ltd, Singapore, Process Engineer

Research Interests

Synthesis of low-dimensional materials and porous carbon materials

Fundamental materials chemistry and physics and electrochemistry

Electrocatalytic and catalytic processes

Energy storage and conversion

Flexible device fabrications 

Selected Publications

1. Gao, J., Cai, X., Wang, J., Hou, M., Lai, L.* and Zhang L. L.*, Recent Progress in Hierarchically Structured O2-cathodes for Li-O2 Batteries,  Chemical Engineering Journal2018DOI: 10.1016/j.cej.2018.06.014

2. Lv, X., Zhang, H., Wang, F., Zhang, Y.X., Zhang L. L.*, Chen, J., Liu, D. and Ji, J.*, Controllable Synthesis of MnO2Nanostructure Anchored on Graphite Foam with Different Morphology for High-Performance Asymmetric Supercapacitor, CrystEngComm, 20, 1690, 2018.

3. Zhu, S., Li, L., Liu, J., Wang, H., Wang, T., Zhang, Y.X.*, Zhang L. L.*, Ruoff, R. S. and Fan, D., Structural directed growth of ultrathin parallel birnessite on β-MnO2 for high-performance asymmetric supercapacitors. ACS Nano12 (2), 1033, 2018.

4. Liu, J., Wang, J., Xu, C., Jiang, H., Li, C, Zhang L. L.*, Lin, J., and Shen, Z.* Advanced Energy Storage Devices: Basic Principles, Analytical Methods, and Rational Materials Design, Advanced Science, 5, 1700322, 2018

5. Zhang L. L., Theng, D. S., Du,Y., Xi, S., Huang, L., Gao, F., Wang C., Chen, L. and Borgna, A., Selective conversion of lactic acid to acrylic acid over alkali and alkaline metal co-modified NaY zeolites Catalysis Science & Technology, 7, 6101, 2017.

6. Zhu, S., Ma, J., Shan, Q., Guan, Bo, Zhang, Y. X.* and Zhang L. L.*, Fabrication of  mesoporous gold networks@MnO2 for high performance supercapacitors, Gold Bulletin, 50 (1), 61, 2017. 

7. Ji, J., Cui, X., Zhu, Y., Lai, L., Zhao, X., Zhang, Y. X. and Zhang L. L.*, Tailoring the electrode interface with enhanced electron transfer for high-rate LIB anodes, Ind. Eng. Chem. Res., 55(23),6643, 2016.

8. Lei, Z. ?, Zhang, J. ?, Zhang, L. L. ?, Kumar, NA. and Zhao, X. S., Functionalization of chemically derived graphene for improving its electrocapacitive energy storage propertiesEnergy Environ. Sci., 9, 1891, 2016

9. Cui, X., Zhu, Y., Li, F., Liu, D., Chen, J., Zhang, Y.X., Zhang L. L.*and Ji, J.*, Enhanced Rate Capability of Lithium Ion Battery Anode Based on Liquid-Solid-Solution Assembly of Fe2O3 on Crumpled Graphene, RSC Advances, 6, 9007, 2016. 

10. Liu, J., Wang, J.; Ku, Z., Wang, H.; Chen, S.; Zhang L. L.*; Lin, j.; Shen, Z.*, Aqueous Rechargeable Alkaline CoxNi2-xS2/TiO2 Battery. ACS Nano10 (1), pp 1007–1016, 2015.

11. Huang M., Li F., Fan, D., Zhang Y. X.* and Zhang L. L.*, MnO2-based nanostructures for high-performance supercapacitors . J. Mater. Chem. A, 3, 21380, 2015.

12. Ji, J., Liu, J., Zhao, X., Zhen, Y., Lai, L., Lin, J., Zhang L. L.* and Ruoff, R. S., In Situ Activation of Nitrogen-Doped Graphene Anchored on Graphite foam for a High Capacity Anode,  ACS Nano, 9, 8609-8616, 2015.

13. Zhao, X., Huang, Z., Lin, L., Zhang, J., Li, Y., Zhang L. L.* and Zhang Q.*, Rational Design of Polyaniline/MnO2/Carbon cloth Ternary Hybrids as Electrodes for Supercapacitor , RSC Advances, 5, 66311, 2015

14. Kuang, M., Li, T., Chen, H., Zhang, Sheng, Zhang L. L.* and Zhang Y. X.*, Hierarchical Cu2O/CuO/Co3O4 Core-Shell Nanowires: Synthesis and Electrochemical Properties,Nanotechnology 26, 304002, 2015 (an invited contribution). 

15. Li, F., Zhang, Y.X. *, Huang, M., Xing, Y. and Zhang L. L.*, Rational Design of Porous MnO2 Tubular Arrays via Facile and Templated Method for High Performance Supercapacitors, Electrochimica Acta, 154, 329, 2015.

16. Huang, M., Zhao, X., Li, F., Zhang L. L.*, and Zhang, Y.*, Facile Synthesis of Ultrathin Manganese Dioxide Nanosheets Arrays on Nickel Foam as Advanced Binder-free Supercapacitor Electrodes, J. Power Sources, 277, 36, 2015

17. Ji, H., Zhao, X., Qiao, Z., Jung, J., Zhu, Y., Lu, Y., Zhang, L. L.*, MacDonald, Allan H., and Ruoff, R. S.*, Capacitance Limits of Carbon-Based Electrical Double-Layer Capacitors, Nat. Commun., 5,3317, 2014.

18. Huang, M., Zhang, Y.*, Li, F, Zhang L. L.*, Ruoff, R. S., Wen, Z., and Liu Q, Self-Assembly of Mesoporous Nanotubes Assembled from Interwoven Ultrathin Birnessite-type MnO2Nanosheets for Asymmetric Supercapacitors, Scientific Reports, 4, 3878, 2014.

19. Huang, M., Zhang, Y. X.*, Li, F., Zhang, L. L.*, Wen, Z., Liu, Q., Facile synthesis of hierachical Co3O4@MnO2 core-shell arrays on Ni foam for asymmetric supercapacitors, J. Power Source, 252, 98 2014.  

20. Zhang, L. L., Gu, Y. and Zhao, X. S. Advanced Porous Carbon Electrodes for Electrochemical Capacitors, J. Mater. Chem.-A, 19395-94082013.

21. Ji J., Zhang, L. L.*, Ji, H., Zhao Xin, Bai Xin, Fan Xiaobin, Zhang Fengbao and Ruoff, R. S.*, Nanoporous Ni(OH)2 thin film on 3D Ultrathin Graphite Foam for High Power Asymmetric Supercapacitor, ACS Nano,7 (7), 6237, 2013.

22. Zhang, L. L., Xiong, Z., and Zhao, X. S.*, A Composite Electrode Consisting of Nickel Hydroxide, Carbon Nanotubes, and Reduced Graphene Oxide with an Ultrahigh Electrocapacitance, J. Power Source, 222, 326, 2013

23. Zhang, L. L., Zhao, X., Ji, H., Stoller, M. D., Lai, L., Murali, S., Mcdonnell, S., Cleverger, B., Wallace, R. M. and Ruoff R. S.*, Nitrogen Doping of Graphene and Its Effect on Quantum Capacitance and A New Insight Towards the Capacitance Enhancement of N-doped Carbon. Energy Environ. Sci., 5, 11, 9618, 2012.

24. Zhang, L. L., Zhao, X., Stoller, Meryl D., Zhu, Y., Murali, S., Ji, H., Wu, Y., Perales, S., Cleverger, B. and Rodney S. Ruoff*. Highly Conductive and Porous Activated Reduced Graphene Oxide Films for High Power Supercapacitors, Nano Lett., 12 (4), 1806-1812, 2012

25. Han, J.?, Zhang, L. L.?, Lee, S., Oh, J., Lee, K., Potts, J. R., Ji, J., Zhao, X., Ruoff, R. S.* and Park, S., Generation of B-doped Grapheme Nano-Platelets Using Solution Process and Their Supercapacitor Applications, ACS Nano, 7(1), 19-26, 2012  ?These authors contributed equally to this paper.

26. Xiong, Z. ?, Zhang, L. L. ?, Ma J. and Zhao X. S*. Photocatalytic Degradation of Dyes over Graphene Gold Nanocomposites under Visible Light Irradiation. Chem. Commun., 46, 6099-6101, 2010 ?These authors contributed equally to this paper

27. Zhang, L. L., Zhao, S., Tian, X. and Zhao, X. S.*, Layered Graphene Oxide Nanostructures with Sandwiched Conducting Polymers as Supercapacitor Electrodes, Langmuir, 26, 17624-17628, 2010. 

28Zhang, L. L., Xiong, Z. and Zhao, X. S.*, Pillaring Chemically Exfoliated Graphene Oxide with Carbon Nanotubes for Photocatalytic Degradation of Dyes under Visible Light Irradiation, ACS Nano4, 7030-7036, 2010

29. Zhang, L. L., Li, S., Zhang, J., Guo, P., Zheng, J. and Zhao, X. S.*, Enhancement of Electrochemical Performance of Macroporous Carbon by Surface Coating of Polyaniline, Chem. Mater.22, 1195-1202, 2010

30Zhang, L. L., Zhou, R. and Zhao, X. S.*, Graphene-based Materials as Supercapacitor Electrodes, J. Mater. Chem.20, 5983-5992, 2010. Zhang, L. L. and Zhao, X. S.*, Carbon-based Materials as Supercapacitor Electrodes, Chem. Soc. Rev.38, 2520-2531, 2009


招生方向

博士招生专业

硕士招生专业

080500材料科学与工程

080500材料科学与工程

02方向:新能源材料与器件

04方向:低维电子材料

06方向:材料计算与模拟

02方向:材料基因工程

04方向:新能源材料与器件

06方向:有机功能材料与工程





 


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