基本情况

姓 名
王成伟

性 别
男

出 生 日 期
1956.2

党 派
中共党员

职 称
教授/博导

职 务


研 究 方 向
凝聚态物理/低维先进材料物性与器件

籍 贯
甘肃省山丹县

工 作 单 位
西北师范大学物理与电子工程学院

地 址
兰州市安宁区安宁东路967号

电 话


电 邮
cwwang@nwnu.edu.cn

教育背景及主要工作经历

教育背景:
1998.09－2001.06, 兰州大学获理学博士学位;
1986.09－1989.06, 中国空间技术研究院兰州物理研究所获理学硕士学位;
1978.01－1982.01, 西北师范大学物理系获理学学士学位;
2005.01－2006.01, 美国Rochester大学化学系，博士后研究员；
2004.01－2005.01, 日本名古屋大学先端材料科学与技术共同研究中心, 高级访问****；
2002.03－2004.01, 中科院兰州化物所固体润滑国家重点实验室, 高级访问****；
2001.09－2002.02, 北京大学纳米化学研究中心，高级访问****；
主要工作经历:
1971.01－1974.08，插队劳动；
1974.08－1978.01，山丹军马总场中学任教；
1982.01－2001.07，西北师大物理系任教，历任助教、讲师、副教授；
2001.07－至今， 历任西北师大物电学院教授、博士研究生导师、甘肃省原子分子物理
与功能材料重点实验室学术委员会委员.

行政和社会兼职工作

西北师范大学物理系副主任（1996–1998）；
西北师范大学物理与电子工程学院副院长（2000–2012）
甘肃省物理学会常务理事（2000–至今）;
中国科学院兰州化学物理研究所固体润滑国家重点实验室兼职教授/博导（2006–2014）;
兰州空间技术物理研究所表面工程技术国家重点实验室兼职教授（2006–至今）

个人荣誉


教学工作

本科教学：普通物理实验、电磁学、物理前沿讲座、材料科学前沿讲座、
材料物理专业导引，指导“纳米科技之星”创新团队；
研究生教学：纳米材料与纳米结构, 真空技术与薄膜物理；薄膜物理与技术（博士生）.

科研项目

1、2015.01－2018.12, 主持国家自然科学基金面上项目（批准号：**）;
2、2013.01－2016.12, 主持国家自然科学基金地区项目（批准号：**）;
3、2010.01－2012.12, 主持国家自然科学基金面上项目（批准号：**）;
4、2008.01－2010.12, 主持国家自然科学基金面上项目（批准号：**）;
5、2012.01－2014.12, 主持甘肃省自然科学基金资助项目（批准号：1208RJZA197）;
6、2008.01－2010.12, 主持甘肃省自然科学基金资助项目（批准号：0803RJZA102）;
7、2009.01－2011.12, 主持兰物所表面工程重点实验室项目（批准号：9140C）;
8、2009.01－2012.12, 主持甘肃省高分子材料重点实验室开放项目（批准号：KF-09-02）;
9、2008.01－2010.12, 主持甘肃省高等学校研究生导师科研项目（批准号：0801-09）;
10、2007.01－2009.12, 主持西北师大知识与科技创新工程三期项目
（批准号：NWNU-KJCXGC-03-22）;
11、2002.01－2004.12, 主持甘肃省自然科学基金项目（批准号：ZS021-A25-029-C）;
12、2002.01－2006.12, 主持中科院化物所固体润滑国家重点实验室开放基金项目.

获奖情况

2项；省高校科技进步一等奖2项, 三等奖2项；获西北师大第四届教学名师奖.

发表论文目录

近几年主要的代表性论文：
[1] Xiang-Zhuo Wang,Yan Li, Cheng-Wei Wang*, Tian Gan, Jian-JunYan, JianWang, Ultrathin Na₂Ti₉O₁₉ heterostructural nanosheets modified with TiO₂ nanoparticles for enhanced photocatalysis, Materials Letters 178 (2016) 140–143.
[2] Jian-Jun Yan, Yan Li**, Yin Chang, Pan Jiang, Cheng-Wei Wang*, The effect of porous lead iodide precursor film on perovskite film formation and its photovoltaic property after an effective pretreatment, Superlattices and Microstructures 94 (2016) 196–203.
[3] Yan Li*, Yin Chang, Yun Zhao, Jian Wang, Cheng-wei Wang, In situ synthesis of oriented NiS nanotube arrays on FTO as highperformance counter electrode for dye-sensitized solar cells, Journal of Alloys and Compounds 679 (2016) 384–390
[4] Ai-Zhen Liao, Jian-Biao Chen, Cheng-Wei Wang*, Xiao-Feng Su, Yan Li, and Jian Wang, Enhanced field emission properties from oxygen-deficient a-Fe₂O₃ nanorod arrays, J. Vac. Sci. Technol. B 34(2), 021803-1– 021803-7, 2016.
[5] Xuqiang Zhang, Jianbiao Chen, Shouyi Li, Aizhen Liao, Chengwei Wang*, A facile methodused for controlled growth of SnO₂ nanoparticles embedded in TiO₂ films on FTO substrateas field emitters, Materials Letters 144 (2015) 1–4.
[6] Shou-Yi Li, Jian Wang*, Gang Wang, Ji-Zhou Wang, Cheng-Wei Wang*, Fabrication of one-dimensional alumina photonic crystals by anodization using a modified pulse-voltage method, Materials Research Bulletin 68 (2015) 42–48.
[7] Qing-Yao Wen, Yan Li, Jian-Jun Yan, Jian Wang, Cheng-Wei Wang*, Growth of void-free Cu₂ZnSn(S,Se)₄ thin film by selenization Cu₂ZnSnS₄ precursor film from ethylene glycol-based solution, Superlattices and Microstructures 85 (2015) 331–338.
[8] Ai-Zhen Liao, Cheng-Wei Wang*, Jian-Biao Chen, Xu-Qiang Zhang, Yan Li, Jian Wang, Remarkably improved field emission of TiO₂ nanotube arrays by annealing atmosphere engineering, Materials Research Bulletin 70 (2015) 988–994.
[9] Shou-Yi Li, Jian Wang, Yan Li, Cheng-Wei Wang*, Superhydrophobic surface based on self-aggregated alumina nanowire clusters fabricated by anodization, Microelectronic Engineering 142 (2015) 70–76.
[10] Jian Wang* and Cheng-Wei Wang, Study of one-dimensional defect photonic crystal based on Ag-anodic aluminum oxide composites with super low refractive index, Eur. Phys. J. Plus (2015) 130: 183.
[11] Gang Wang, Jian Wang*, Shou-Yi Li, Jian-Wen Zhang, Cheng-Wei Wang*, One-dimensional alumina photonic crystals with a narrow band gap and their applications to high-sensitivity concentration sensor and photoluminescence enhancement, Superlattices and Microstructures 86 (2015) 546–551.
[12] Xuqiang Zhang, Jianbiao Chen, Chengwei Wang*, Aizhen Liao, and Xiao-Feng Su. Low-temperature liquid phase reduced TiO₂ nanotube arrays: synergy of morphology manipulation and oxygen vacancy doping for enhancement of field emission, Nanotechnology 26 (2015) 175705(12pp).
[13] Qingyao Wen, Yan Li, Jianjun Yan, Chengwei Wang*. Crystal size-controlled growth of Cu₂ZnSnS₄ films by optimizing the Na doping concentration, Materials Letters 140 (2015) 16–19.
[14] Xuqiang Zhang, Chengwei Wang*, Jianbiao Chen, Weidong Zhu, Aizhen Liao, Yan Li, Jian Wang, and Li Ma. Enhancement of the Field Emission from the TiO2 Nanotube Arrays by Reducing in a NaBH4 Solution, ACS Appl. Mater. Interfaces 6 (2014) 20625–20633.
[15] Qingyao Wen, Yan Li*, Jianjun Yan, Chengwei Wang*. Crystal size-controlled growth of Cu₂ZnSnS₄ films by optimizing the Na doping concentration, Materials Letters, 140 (2015) 16–19.
[16] Xian Hou, Yan Li*, Jian-Jun Yan, Cheng-Wei Wang*. Highly efficient photocatalysis of p-type Cu2ZnSnS4 under visible-light illumination, Materials Research Bulletin 60 (2014) 628–633.
[17] Wei-Dong Zhu, Cheng-Wei Wang*, Jian-Biao Chen, Yan Li, Jian Wang. Enhanced field emission from Ti³⁺ self-doped TiO₂ nanotube arrays synthesized by a facile cathodic reduction process, Applied Surface Science, 301 (2014) 525–529.
[18] Ziwei Pan, Yan Li*, Xian Hou, Jianjun Yan, Cheng-Wei Wang*. Effect of annealing temperature on the photocatalytic activity of CdS-modified TNAs/glass nanotube arrays, Physica E, 63 (2014) 1–7.
[19] Ai-Zhen Liao, Wei-Dong Zhu, Jian-Biao Chen, Xu-Qiang Zhang, Cheng-Wei Wang*. Vertically aligned single-crystalline ultra-thin CuO nanosheets: Low-temperature fabrication growth mechanism, and excellent field emission, Journal of Alloys and Compounds 609 (2014) 253–261.
[20] Shou-Yi Li, Jian Wang*, Yan Li, Xu-Qiang Zhang, Gang Wang, Cheng-Wei Wang*. Photoluminescent properties of anodic aluminum oxide films formed in a mixture of malonic and sulfuric acid, Superlattices and Microstructures 75 (2014) 294–302.
[21] Yu-Long Sun, Jian Wang*, Shou-Yi Li, Xin He, Cheng-Wei Wang*.The preparation and characterization of nanoparticle Ag–SiO₂ composite films with super low refractive index, Superlattices and Microstructures 73 (2014) 136–144.
[22] Jun Yang, Jian Wang, Cheng-Wei Wang*, Xin He,YanLi, Jian-Biao Chen, Feng Zhou. Intermediate wetting states on nanoporous structures of anodic aluminum oxide surfaces, Thin Solid Films, 562 (2014) 353–360.
[23] Xu-Qiang Zhang, Jian-Biao Chen*, Wei-dong Zhu, Cheng-Wei Wang*, Enhanced field emission from hydrogenated SnO₂ nanoparticles embedded in TiO₂ film on fluorinated tin oxide substrate, J. Vac. Sci. Technol. B, 32(2), 021808, 2014.
[24] Cheng-Wei Wang*, Wei-Dong Zhu, Jian-Biao Chen, XianHou, Xu-Qiang Zhang,Yan Li, Jian Wang, Feng Zhou. Low-temperature ammonia annealed TiO₂ nanotube arrays: Synergy of morphology improvement and nitrogen doping for enhanced field emission, Thin Solid Films, 556 (2014) 440–446.
[25] Xian Hou, Cheng-Wei Wang*, Wei-Dong Zhu, Xiang-Qian Wang, Yan Li, Jian Wang, Jian-Biao Chen, Tian Gan, Hai-Yuan Hu, Feng Zhou. Preparation of nitrogen-doped anatase TiO₂ nanoworm/nanotube hierarchical structures and its photocatalytic effect, Solid State Sciences, 29 (2014) 27–33.
[26] Wei-Dong Zhu, Cheng-Wei Wang*, Jian-Biao Chen, Xu-qiang Zhang, Low temperature synthesis of reduced titanium oxide nanotube arrays: Crystal structure transformation and enhanced field emission, Materials Research Bulletin 50 (2014) 79–84.
[27] Xiang-Qian Wang, Jian Wang, Yan Li, Cheng-Wei Wang*, Xian Hou, Zi-Wei Pan, Feng Zhou, Enhanced Photovoltaic properties of P3HT/Cr–TiO₂ bilayer film heterojunction solar cells, Superlattices and Microstructures 62 (2013) 88–96.
[28] Dong-Sheng Li, Jian-Biao Chen, Cheng-Wei Wang*, Wei-Dong Zhu, Ling Zhang, Yan Li, Jian Wang, Feng Zhou, Aligned rutile TiO₂ nanorods: Facile synthesis and field emission, Superlattices and Microstructures 59 (2013) 187–195.
[29] Jian Wang, Jun–Jun Wang, Yu-Long Sun, Cheng-Wei Wang*, The preparation of superhydrophilic surface of TiO₂ coating without ultraviolet irradiation through annealing treatment, J. Sol-Gel Sci. Technol. (2013) 68:75–80.
[30] Jian Wang, Cheng-Wei Wang*, The modulation on the optical responses of one-dimensional photonic crystals based on the ordered porous TiO2 films, Optik, 124 (2013) 3794–3798.
[31] Jian-Biao Chen, Lin-Qing Wang, Cheng-Wei Wang*, Dong-Sheng Li, Yan Li, Jian Wang, Feng Zhou, Electron field emission from the semimetallic TiO2 nanotube arrays, Vacuum, 96 (2013) 18–21.
[32] Yun Zhao, Yan Li, *Cheng-Wei Wang, Jian Wang, Xiang-Qian Wang, Zi-Wei Pan, Chen Dong, Feng Zhou. Carbon-doped anatase TiO2 nanotube array/glass and its enhanced photocatalytic activity under solar light, Solid State Sciences, 15 (2013) 53–59.
[33] Wei-Dong Zhu, Cheng-Wei Wang*, Jian-Biao Chen, Dong-Sheng Li, Feng Zhou and Hao-Li Zhang. Enhanced field emission from hydrogenated TiO2 nanotube arrays, Nanotechnology, 23 (2012) 455204 (6pp).
[34] Cheng-Wei Wang* , Jian-Biao Chen, Lin-Qing Wang, You-Min Kang, Dong-Sheng Li, Feng Zhou. Single crystal TiO₂ nanorods: Large-scale synthesis and field emission, Thin Solid Films, 520 (2012) 5036–5041.
[35] Jian Wang, Yan Li, Duo-Shu Wang, Cheng-Wei Wang*. The optical responses of one-dimensional photonic crystals based on the transparent Ag-anodic aluminum oxide composites with super low-refractive index, Thin Solid Films, 520 (2012) 6970–6974.
[36] Yan Li, Cheng-Wei Wang*, Yun Zhao, Jian Wang, Feng Zhou. Performance improvement of P3HT/TiO2 coaxial heterojunction polymer solar cells by introducing a CdS interface modifier, Journal of Solid State Chemistry, 196 (2012) 349–355.
[37] You-Min Kang, Cheng-Wei Wang*, Jian-Biao Chen, Lin-Qing Wang, Dong-Sheng Li, and Wei-Dong Zhu, Feng Zhou. Field emission property of carbon-doped TiO2 nanotube arrays with controllable doping content of carbon, J. Vac. Sci. Technol. B, 30 (2012) 041801-1—041801-5.
[38] Jian-Biao Chen, Cheng-Wei Wang*, You-Min Kang, Dong-Sheng Li, Wei-Dong Zhu, Feng Zhou. Investigation of temperature-dependent field emission from single crystal TiO₂ nanorods, Applied Surface Science, 258 (2012) 8279– 8282.
[39] Jun-Jun Wang, Duo-Shu Wang, Jian Wang, Wu-Long Zhao, Cheng-Wei Wang*. High transmittance and superhydrophilicity of porous TiO2/SiO2 bi-layer filmswithout UV irradiation, Surface & Coatings Technology, 205 (2011) 3596–3599.
[40] Lin-Qing Wang, Cheng-Wei Wang*, Jian-Biao Chen, Rui-Sheng Guo, Feng Zhou, Wei-Min Liu. Electron field emission from the carbon-doped TiO2 nanotube arrays, Thin Solid Films, 519 (2011) 8173–8177.
[41] J. B. Chen, Cheng-Wei Wang*, R. S. Guo, L. Q. Wang, W. D. Zhu, F. Zhou, W. M. Liu. Fabrication and field emission of carbon nanotubes/TiO₂/Ti composite nanostructures. Journal of Vacuum Science and Technology B, 28(6), p 1274, 2010.
[42] R. S. Guo, Cheng-Wei Wang*, J. B. Chen, J. Wang, L. Q. Wang, W. M. Liu. Field emission from TiO₂/Ti nanotube arrays with different morphologies. Physica B-Condensed Matter, 405(22), pp 4682-4686, 2010.
[43] J. Wang, Cheng-Wei Wang*, Y. Li, F. Zhou, W. M. Liu. The structure optimization design of the organic solar cells using the FDTD method. Physica B-Condensed Matter, 405(8), pp 2061-2064, 2010.
[44] L. R. Zhao, J. Wang, Y. Li, Cheng-Wei Wang*, F. Zhou, W. M. Liu. Anodic aluminum oxide films formed in mixed electrolytes of oxalic and sulfuric acid and their optical constants. Physica B-Condensed Matter, 405(1), pp 456-460, 2010.
获得的国家发明专利：
[1] 王成伟，侯显，李燕，陈建彪，王建，氮掺杂二氧化钛纳米复合结构制备方法及应用. 发明专利号：ZL5.8, 2016. 06. 29
[2] 王成伟，朱卫东，陈建彪，李燕，王建，一种加氢二氧化钛纳米管阵列膜的制备方法及应用. 发明专利号：ZL2.8, 2016.01.27
[3] 王成伟，陈建彪，李燕，王建，康佑民，单晶二氧化钛纳米棒大面积生长方法及该纳米棒的应用. 发明专利号：ZL8.9, 2013.01.30.
[4] 王成伟，王林青，陈建彪，一种半金属二氧化钛纳米管阵列膜的生长方法及其应用. 发明专利号：ZL2.7, 2012.11.14.