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中国科学院宁波材料技术与工程研究所导师教师师资介绍简介-汪伟(春蕾副研究员)

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汪 伟(春蕾副研究员)
汪伟,博士,副研究员;江西南丰人。
1999-2003年,中国科技大学,获理学学士学位;
2003-2008年,中国科技大学,获博士学位;
2008-2012年,美国科罗拉多大学博尔德分校,博士后;
2012年10月,以“春蕾人才”引进中国科学院宁波材料所,任副研究员。
目前研究方向:石墨烯薄膜研究
电话/传真Email:wangwei@nimte.ac.cn
2015年入选第八批“浙江省海外高层次人才计划”
论文
1. MiaoTian,WeiWang,YangLiu,KatherineL.Jungjohann,C.ThomasHarris,Yung-ChengLee,Ronggui Yang*,Athree-dimensionalcarbonnano-networkforhighperformancelithiumionbatteries.NanoEnergy, 2015, 11,500.
2. W. Wang, M. Tian, Y. J. Wei, S. H. Lee, Y. C. Lee, and R. G. Yang, Binder-free three-dimensional silicon/carbon nanowire networks for high performance lithium-ion battery anodes.Nano Energy2013,2,943.
3.W. Wang, D. Li, M. Tian, Y. C. Lee, and R. G. Yang, Wafer-scale fabrication of silicon nanowire arrays with controllable dimensions.Appl. Surf. Sci.2012,258, 8649.
4.W. Wang, M. Tian, A. Abdulagatov, S. M. George, Y. C. Lee, R. G. Yang, Three-dimensional Ni/TiO2nanowire network for high areal capacity lithium ion microbattery applications.Nano Lett.2012,12, 655.
5.W. Wang, Genqaing Zhang and Xiaoguang Li, Manipulating growth of thermoelectric Bi2Te3/Sbsuperlattice nanowire arrays.J. Phys. Chem. C2008,112, 15190.
6. W. Wang, Genqiang Zhang and Xiaoguang Li, Spontaneous multiple heterostructure formation in Cd-Te nanowire arrays and its optical properties.Chem. Lett.2008,37, 848.
7.W. Wang, X. L. Lu, T. Zhang, G. Q. Zhang, W. J. Jiang, X. G. Li, Bi2Te3/Te multiple heterostructure nanowire arrays formed by confined precipitation.JACS2007,129, 6702.
8. W. Wang, J. F. Qu, X. L. Lu, G. Q. Zhang, G. Li and X. G. Li, Electrochemical fabrication of BixTe1-x (0.4≤ x ≤0.7) nanowire arrays.Mater. Sci. Forum2007,546-549, 2171.
9.T. Miao,W. Wang, Y. J. Wei, and R. G. Yang, Stable high-areal-capacity lithium-ion battery anodes based on three-dimensional Ni-Sn nanowire networks, Journal of Power Source. 2012,211, 46.
10.D. Li, G. S. Wu,W. Wang, Y. D. Wang, D. Liu, D. C. Zhang, Y. F. Chen, G. P. Peterson, R. G. Yang, Enhancing flow boiling heat transfer in microchannels for thermal management with monolithically- integrated silicon nanowires.Nano Lett.2012,12, 3385.
11. T. Miao,W. Wang, S. H. Lee, Y. C. Lee, R. G. Yang, Enhancing Ni-Sn nanowire lithium-ion anode performance by tailoring active/inactive material interfaces.J. Power Sources2011,196, 10207.
12. J. Zhu, D. W. Tang,W. Wang, J. Liu, K. W. Holub, R. G. Yang, Ultrafast thermoreflectance techniques for measuring thermal conductivity and interface thermal conductance of thin filmsJ. Appl. Phys.2010,108, 094315.
13.G. Q. Zhang, Q. X. Yu,W. Wang, X. G. Li, Nanostructures for Thermoelectric Applications: Synthesis, Growth Mechanism, and Property Studies.Adv. Mater.2010,22, 1959.
14. A. Mavrokefalos, A. L. Moore, M. T. Pettes, L. Shi,W. Wang, X. G. Li, Thermoelectric and structural characterizations of individual electrodeposition bismuth telluride nanowires.J. Appl. Phys.2009,105, 104318.
15.G. Q. Zhang,W. Wang, Q. X. Yu, X. G. Li, Facile one-pot synthesis of PbSe and NiSe2hollow spheres: Kirkendall-effect-induced growth and related properties.Chem. Mater.2009,21, 969.
16. H. L. Li, H. Zhang,W. Wang, X. Q. Xaing, Y. Q. Zhang, X. G. Li, Ultrasonic study on RuSr2GdCu2O8.Phys. Status Solidi B2009,246, 45.
17.G. Q. Zhang,W. Wang, X. L. Lu, X. G. Li, Solvothermal synthesis of V-VI binary and ternary hexagonal platelets: The oriented attachment mechanism.Cryst. Growth Des.2009,9, 145.
18. G. Q. Zhang,W. Wang, X. G. Li, Enhanced thermoelectric properties of core/shell heterostructure nanowire composites.Adv. Mater.2008,20, 3654.
19. X. L. Lu,W. Wang, G. Q. Zhang, X. G. Li, Dual-activity controlled asymmetric synthesis of superconducting lead hemisphere.Adv. Funct. Mater.2007,17, 2198.
20. X. L. Lu, G. Q. Zhang,W. Wang, X. G. Li, Superconducting and oxidation-resistant coaxial lead–polymer nanocables.Angew. Chem. Int. Ed.2007,46, 5772.
21. G. Q. Zhang, X. L. Lu,W. Wang, X. G. Li, Facile synthesis of hierarchical PbTe flower-like nanostructure and its shape evolution process guided by a kinetically controlled regime.Chem. Mater.2007,19, 5207.
22. G. Q. Zhang, T. Zhang, X. L. Lu,W. Wang, J. F. Qu, X. G. Li, Controlled synthesis of 3D and 1D nickel nanostructures using an external magnetic field assisted solution-phase approach.JPCC2007,111, 12663.
23. X. L. Lu, G. Q. Zhang, J. F. Qu,W. Wang, From nanorods to nanowires: a controllable synthesis of one dimensional superconducting cuprates.Physica C2007,460, 1438.
24. G. Q. Zhang, X. L. Lu, J. F. Qu,W. Wang, G. Li, X. G. Li, Solution phase synthesis of superconducting La2CuO4microspheres.Mater. Sci. Forum2007,546-549, 2071.
25.X. Q. Xu, T. Qiang, G. Q. Zhang, T. Zhang, G. Li,W. Wang, X. G. Li, Fabrication and magnetic properties of multiferroic BiFeO3nanotube arrays.Chem. Lett.2007,36, 112.
26. G. Q. Zhang, X. L. Lu, T. Zhang, J. F. Qu,W. Wang, X. G. Li, S. H. Yu, Microstructure and superconductivity of highly ordered YBa2Cu3O7-delta nanowire arrays.Nanotechnol.2006,17, 4252.
27. J. F. Qu,W. Wang, Y. Chen, G. Li, X. G. Li, Raman spectra study on nonstoichimetric compound NaxCoO2.Phys. Rev. B2006,73, 092518.
28. R. K. Zheng, G. Li, Y. Yang, A. N. Tang,W. Wang, T. Qian, X. G. Li, Transport, ultrasound, and structural properties for the charge-ordered Pr1-xCaxMnO3(0.5 ≤ x ≤ 0.875) manganites.Phys. Rev. B2004,70, 014408.
29. R. K. Zheng, G. Li, Y. Yang, A. N. Tang,W. Wang, X. G. Li, Z. D. Wang, H. C. Ku, The role of the cooperative Jahn-Teller effect in the charge-ordered La1-xCaxMnO3(0.5 ≤ x ≤ 0.87) manganites.Appl. Phys. Lett.2003,83, 5250.
30. A. N. Tang, Y. Yang,W. Wang, R. K. Zheng, G.A. Li, X. G. Li, J. N. Wei, J. P Shui, The relationship between thecooperative Jahn-Teller effect and the internal friction behavior for the charge ordered La1-xCaxMnO3(0.50 ≤ x ≤ 0.85),Acta Metall. Sinica2003,39, 1179.
31. R. K. Zheng, G. Li, Y. Yang, A. N. Tang,W. Wang, X. G. Li, Z. D. Wang, H. C. Ku, Transport, magnetic, specific heat, internal friction, and shear modulus in the charge ordered La0.25Ca0.75MnO3manganite.J. Appl. Phys.2003,94, 514.
授权专利:
1.汪伟、刘兆平,卷对卷管式炉气相沉积装置及其生产工艺,ZL3.3;
2.王姣霞、汪伟、刘兆平,一种连续快速生长石墨烯的气相沉积装置,ZL5.6;
3.庄华杰 、汪伟 、刘兆平、陈黎,一种石墨烯的转移方法,ZL 7.2;
4.王姣霞、汪伟、刘兆平,一种石墨烯复合电极,ZL20**.8.


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