万青个人简历
姓名：万青
性别：男
出生年月：1976 年 8 月
民族：汉
籍贯：江西省
政治面貌：中共党员
 教育研究简况
2005 年 11 月－今：湖南大学物理与微电子科学学院，教授，
博士生导师，电子科学与技术系主任；
2006 年 1 月-2006 年 12 月 31 日：美国密西根大学(University
of Michigan)电子工程系，Research Scholar；
2004 年 10 月－2005 年 10 月：英国剑桥大学纳米中心，博士后；
1999 年 9 月－2004 年 2 月：硕博连读，微电子学与固体电子学
专业；中国科学院上海微系统与信息技术研究所（和物理所联合培养）；
1994 年－1998 年：本科，浙江大学材料系，材料科学与工程专业；
热爱科研和教学工作，最近 5 年来，在光电半导体薄膜、纳米结构制备和器件应用领
域取得了一批创新性科研成果。到目前为止，在 Nano Letters (2 篇，SCI 影响因子：9.9),
Advanced Materials (1 篇，SCI 影响因子：9.1), Small (1 篇，SCI 影响因子：6.0)，Chemical
Communications (1 篇，SCI 影响因子：4.5), Applied Physics Letters (32 篇，SCI 影响因子：
4.0) 等权威 SCI 期刊上发表论文 60 多篇。累计总 SCI 引用次数 1000 多次，SCI 他引近 900
次，第一作者单篇最高 SCI 他引 200 多次。2007 年国家杰出青年基金项目通过专家初审、
获得好评、参加了答辩。主要研究兴趣：1）新型半导体光电微纳材料与器件；2）高效硅
基薄膜太阳能电池
在研课题
2007 年，湖南省杰出青年基金项目，负责人（30 万）
2007 年，教育部重点项目，负责人（10 万）
2007 年，全国优秀百篇博士论文科研资助项目，负责人(58 万)
2007 年，教育部新世纪优秀人才计划资助项目，负责人（50 万）
2006 年，国家自然科学基金青年项目，负责人（25 万）
另外还作为骨干参加 包括“863” “973” “杰出青年基金”在内的多项科研项目。
 奖励和荣誉
2007 年湖南省“芙蓉学者”特聘教授
2007 年湖南省杰出青年基金获得者
2007 年度第六届湖南省青年科技奖
2006 年度全国百篇优秀博士论文；
2006 年教育部新世纪优秀人才计划；
2005 年度中国科学院优秀博士论文；
2005 年度“上海市优秀学位论文”；
2003 年度中国科学院院长特别奖 （博士）；
2003 年首届上海市科技创新市长奖；
联系电话：13117518165
电子邮件：wanqing7686@hotmail.com;
wanqing76@hnu.cn
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 近 5 年半导体纳米结构与器件领域代表科研论文
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Qing, Wan, Eric N. Dattoli, and Wei Lu, “Doping Dependent Electrical Characteristics of
SnO2 Nanowires”, Small. 4, 451 (2008).
Qing. Wan, Jin Huang, Zhong Xie, and Taihong Wang, Eric N. Dattoli, and Wei Lu,
“Branched SnO2 nanowires on metallic nanowire backbones for ethanol sensors application”,
Applied Physics Letters. 92,102101 (2008).（封面报道）
N. Zhang, Ke Yu, Q. Li, Z. Q. Zhu, and Q. Wan, “Room-temperature high-sensitivity H2S
gas sensor based on dendritic ZnO nanostructures with macroscale in appearance” J. Appl.
Phys. 103, 104305 (2008).
Eric N. Dattoli, Qing Wan, Wei Guo, Yanbin Chen, Xiaoqing Pan, and Wei Lu. “Fully
Transparent Thin-Film Transistor Devices Based on SnO2 Nanowires”, Nano Letters, 7,
2463 (2007).
J. Huang, A. X. Lu, B. Zhao, and Q. Wan* “Branched growth of degenerately Sb-doped
SnO2 nanowires”，Applied Physics Letters, 91, 073102 (2007).
C. C. Li, Z. F. Du, L. M. Li, H. C. Yu, Q. Wan, and T. H. Wang, “Surface-depletion
controlled gas sensing of ZnO nanorods grown at room temperature”, Applied Physics
Letters. 91, 032101 (2007).
Qing Wan, Eric N. Dattoli, Wei Lu. “Transparent metallic Sb-doped SnO2 nanowires”
Applied Physics Letters, 90, 222107 (2007).
Qing Wan, Eric N. Dattoli, Wayne Y. Fung, Wei Guo, Yanbin Chen, Xiaoqing Pan, and Wei
Lu. “High-Performance Transparent Conducting Oxide Nanowires”, Nano Letters, 6, 2909
(2006).
Q. Wan, M. Wei, D. Zhi, J. L. MacManus-Driscoll, and M. G. Blamire. “Epitaxial growth of
vertically aligned and branched single crystalline tin-doped indium oxide nanowire arrays”,
Advanced Materials, 18, 234 (2006).
Q. Wan, P. Feng, and T. H. Wang, “Vertically aligned tin-doped indium oxide nanowire
arrays: Epitaxial growth and electron field emission properties” Applied Physics Letters, 89,
123102 (2006).
Q. Wan, “Structural and magnetic properties of manganese and phosphorus codoped ZnO
films on (0001) sapphire substrates”，Applied Physics Letters, 89, 082515 (2006).
Q. Wan, “Comment on "Low resistivity p-ZnO films fabricated by sol-gel spin coating"
[Appl. Phys. Lett. 88, 251116 (2006)]”, Applied Physics Letters, 89, 176103 (2006).
Q. Wan, T. H. Wang, “Comment on “A transparent metal: Nb-doped anatase TiO2”, Applied
Physics Letters, 88, 226102 (2006).
Q. Wan, T. H. Wang, “Single-crystalline Sb-doped SnO2 nanowires: synthesis and gas sensor
application”, Chemical Communication, 14, 3841 – 3843 (2005).
Q. Wan, T. H. Wang, J. C. Zhao, “Enhanced photocatalytic activity of ZnO nanotetrapods”
Applied Physics Letters, 87, 083105 (2005).
Q. Wan, X. L. He, J. P. Li, C. L. Lin, and T. H. Wang, “Fabrication and ethanol sensing
characteristics of ZnO nanowires gas sensor”, Applied Physics Letters, 84, 3654 (2004).
Q. Wan, T.H. Wang, “Positive temperature coefficient resistance and humidity sensing
properties of Cd-doped ZnO nanowires”, Applied Physics Letters, 84, 3085 (2004).
Q,Wan, C.L.Lin, X.B.Yu, W.L.Liu and T.H.Wang, “Room-temperature hydrogen storage
characteristics of ZnO nanowires”, Applied Physics Letters, 84, 124 (2004).
Q.Wan, K.Yu, T.H.Wang, C.L.Lin, “Low-field electron emission from tetrapod-like ZnO
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nanostructures synthesized by rapid evaporation”, Applied Physics Letters, 83, 2253
(2003).
Q. Wan, Z. T. Song, C. L. Lin, S. L. Feng, and T. H. Wang, “single-crystalline tin-doped
indium oxide whiskers: synthesis and characterization”, Applied Physics Letters, 85, 4759
(2004).
Q.Wan, T.H.Wang M.Zhu，and C.L.Lin，“Resonant tunneling of Si nanocrystals embedded in
Al2O3 matrix prepared by electron-beam co-evaporation”，Applied Physics Letters, 81, 538
(2002)
Q.Wan, T.H.Wang, T.Feng, X.H.Liu, and C.L.Lin “Synthesis of large-area germanium
cone-arrays for application in electron field emission”, Applied Physics Letters, 81, 3281
(2002)
Q. Wan, C. L. Lin, N. L. Zhang, et.al, “Linear and third-order nonlinear optical absorption of
amorphous Ge nanoclusters embedded in Al2O3 matrix synthesized by electron-beam
co-evaporation”, Applied Physics Letters, 82, 3162 (2003).
Q.Wan, C.L.Lin, T.H.Wang, “Synthesis and optical properties of semiconducting beta-FeSi2
nanocrystals”, Applied Physics Letters, 82. 3224 (2003).
Q. Wan, W. L. Liu, C. L. Lin T. H. Wang “Structural and electrical characteristics of Ge
nanostructures embedded in Al2O3 gate dielectric”, Applied Physics Letters, 82, 4708
(2003).
Q.Wan, N.L.Zhang, W.L.Liu, C.L.Lin, and T.H.Wang, “Memory and negative
photoconductivity effects of Ge nanocrystals embedded in ZrO2/Al2O3 gate dielectrics”,
Applied Physics Letters, 83, 138 (2003).
P. Feng, Y. X. Xue, Y. G. Liu, Q. Wan, H. T. Wang, “Achieving fast oxygen response in
individual beta-Ga2O3 nanowires by ultraviolet illumination”. Applied Physics Letters. 89,
112114 (2006)
K. Yu, Y. S. Zhang, F. Xu, Q. Li, Z. Q. Zhu, and Q. Wan, “Significant improvement of field
emission by depositing zinc oxide nanostructures on screen-printed carbon nanotube films”.
Applied Physics Letters, 88, 153123 (2006).
P. Feng, Q. Wan, T. H. Wang, “Contact-controlled sensing properties of flowerlike ZnO
nanostructures”, Applied Physics Letters. 87, 213111 (2005).
Z. Ying, Q. Wan, H. Cao, Z. T. Song, S. L. Feng, “Characterization of SnO2 nanowires as an
anode material for Li-ion batteries”, Applied Physics Letters 87, 113108 (2005).
Q. H. Li, Q. Wan, Y. G. Wang, T. H. Wang, “Abnormal temperature dependence of
conductance of single Cd-doped ZnO nanowires”, Applied Physics Letters 87, 263101
(2005).
Q. H. Li, Q. Wan, Y. X. Liang, and T. H. Wang, “Electronic transport through individual
ZnO nanowires”, Applied Physics Letters, 84, 4556 (2004).
Q. H. Li, Q. Wan, and T. H.Wang, “Stable field emission from tetrapod-like ZnO
nanostructures”, Applied Physics Letters 85, 636 (2004).
Q. H. Li, Y.X.Liang, Q.Wan, T.H.Wang, “Oxygen sensing characteristics of individual ZnO
nanowire transistors”, Applied Physics Letters, 85, 6389 (2004).
P. Feng, Q. Wan, Y. Tian, and H. Wang, “Anomalous electrorheological behavior of ZnO
nanowires” Applied Physics Letters, 87, 033114 (2005).
S. Y. Wang, W. L. Liu, Q. Wan, J. Y. Dai, P. F. Lee, S. H. Luo, Q. W. Shen, M. Zhang, Z. T.
Song, C. L. Lin, “Investigation of Ge nanocrytals in a metal-insulator-semiconductor
structure with a HfO2/SiO2 stack as the tunnel dielectric”, Applied Physics Letters, 86,
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113105 (2005).
Q. H. Li, Y. J. Chen, Q. Wan, and T. H. Wang, “Thin film transistors fabricated by in-situ
growth SnO2 nanobelts on Au/Pt electrodes”, Applied Physics Letters, 85, 1805 (2004)
Y. J, Chen, M. S. Cao, T. H. Wang, Q. Wan, “Microwave absorption properties of the ZnO
nanowire-ployester composites”, Applied Physics Letters, 84, 3367 (2004).
Q Wan, Z T Song, W L Liu, C L Lin and T H Wang, “Photoluminescence and photosensitive
properties of ZnO strands self-twined by nanowires”, Nanotechnology 15, 559 (2004).
Q.Wan, T.H.Wang, and C.L.Lin, “Third-order Optical Nonlinearity and Negative
Photoconductivity of Ge Nanocrystals Embedded in Al2O3 dielectric” Nanotechnology, 14,
L15 (2003).
P. Feng, J. Y. Zhang, Q. Wan, T. H. Wang, “Photocurrent characteristics of individual
ZnGa2O4 nanowires”, Journal of Applied Physics. 102, 074309 (2007).
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