Associate professor
Doctoral Supervisor
Master Tutor
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教育背景
1997.9-2001.7 东北大学 理学学士
2001.9-2004.7 中国地质大学(武汉) 理学硕士
2007.9-2009.7 中国地质大学(武汉) 理学博士
研究方向
新能源材料与器件、纳米结构自组装、纳米光催化材料、生物传感材料
近期项目
湖北省重点实验室基金项目:墨迹与印油交叉部位表征特性研究,2019.11-2020.11
湖北省重点实验室基金项目:激光打印文件多次输出微观表征形态变化研究,2019.11-2020.11
广东省重点实验室基金项目:CuO/CdS复合纳米结构自组装及其在水污染治理领域的应用研究,2019.04-2019.12
湖北省重点实验室基金项目:适配体功能化稀土发光材料显现手印与成像研究,2018.12-2020-12
纵向项目:广西钦杭成矿带西段博白县、六万山幅1:5万区域地质矿产调查,2015.11-2017.11
纵向项目:广东南岭成矿带洽水圩、横石圩幅1:5万区域地质矿产调查,2015.11-2017.11
纵向项目:白泥基橡塑填料制备技术研究,2015.07-2016.06
横向项目:电石渣制备石膏粉及石膏晶须,2014.01-2016.12
国土资源部示范工程项目子课题:煤矸石提铝后氧化硅的综合利用技术及产业化,2013.01-2014.12
国土资源部示范工程项目子课题:云南省临沧市临翔区永泉高岭土矿区综合开发利用与无尾矿工程,2010.05-2013.04
近期论文
[1] Yongqian Wang*, Xiande Yang, Ting Ye, Chao Xu, Fan Xia, Dawei Meng**. Comparative studies of M-doped (M = Ce3+, Zn2+, Cu2+) dendritic-like CdS on structural and photocatalytic property. Journal of Electronic Materials, 2017, 46(3): 1598-1606.
[2] Yongqian Wang*, Yan Chen, Qimeng Sun, Bing Yan**. Synthesis, structure, and photoluminescence properties of Ce3+ and Tb3+ doped alkaline-earth silicate Sr2MgSi2O7 phosphors for WLEDs. Journal of Materials Research, 2017, 32(3): 547-556.
[3] Yongqian Wang*, Jun Yang, Hanxiang Jia, Meihua Yu, Hongyun Jin. Self-assembled urchin-like ZnO nanostructures fabricated by electrodeposition-hydrothermal method. Journal of Alloys and Compounds, 2016, 665: 62-68.
[4] Yongqian Wang*, Xiande Yang, Zhengshu Wang, Xiangzhou Lv, Hanxiang Jia, Junhan Kong, Meihua Yu. CdS and SnS2 nanoparticles co-sensitized TiO2 nanotube arrays and the enhanced photocatalytic property. Journal of Photochemistry and Photobiology A: Chemistry, 2016, 325: 55-61.
[5] Yongqian Wang*, Qun Ma, HanxiangJia, Zhengshu Wang. One-step solution synthesis and formation mechanism of flower-like ZnO and its structural and optical characterization. Ceramics International, 2016, 42: 10751-10757.
[6] Yongqian Wang*, Xiande Yang, Zhengshu Wang, Xiangzhou Lv, Hanxiang Jia, Junhan Kong, Meihua Yu. Preparation of hierarchical CdS structures and effect of sodium dodecyl benzene sulfonate (SDBS) on the morphologies. Journal of Materials Science: Materials in Electronics, 2016, 27: 6750-6756.
[7] Yongqian Wang*, Dagui Wang, Bing Yan, Yan Chen, Caixiong Song. Fabrication of diverse CuO nanostructures via hydrothermal method and their photocatalytic properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 6918-6924.
[8] YongqianWang*, Qun Ma, Hanxiang Jia, Junhan Kong. Controllable synthesis, characterization of ZnS nanostructured spheres. Journal of Materials Science: Materials in Electronics, 2016, 27: 7167-7173.
[9] YongqianWang*, Qun Ma, Junhan Kong, Hanxiang Jia, Zhengshu Wang. Solution self-assembly of flower-like ZnO nanostructures with nanosheets and their optical properties. Materials Technology: Advanced Performance Materials, 2016, 31(1):13-17.
[10] Yongqian Wang*, Tingting Jiang, Dawei Meng, Junhan Kong, Hanxiang Jia, Meihua Yu*. Controllable fabrication of nanostructured copper compound on a Cu substrate by a one-step route. RSC Advances, 2015, 5: 16277-16283.
[11] Yongqian Wang*, Jun Yang, Yinchang Li, Tingting Jiang, Jieyu Chen, Junxia Wang. Controllable preparation of ZnO nanostructure using hydrothermal-electrodeposited method and its properties. Materials Chemistry and Physics, 2015, 153: 266-273.
[12] Yongqian Wang*, Tingting Jiang, Dawei Meng. Controllable fabrication of nanowire-like CuO film by anodization and its properties. Applied Surface Science, 2015, 349: 636-643.
[13] Yongqian Wang*, Tingting Jiang, Dawei Meng, Dagui. Wang, Meihua Yu. Synthesis and enhanced photocatalytic property of feather-like Cd-doped CuO nanostructures by hydrothermal method. Applied Surface Science, 2015, 355: 191-196.
[14] Yongqian Wang*, Xiande Yang, Qun Ma, Junhan Kong, Hanxiang Jia, Zhengshu Wang, Meihua Yu. Preparation of flower-like CdS with SDBS as surfactant by hydrothermal method and its optical properties. Applied Surface Science, 2015, 340: 18-24.
[15] Yongqian Wang, Jun Yang, Junhan Kong, Hanxiang Jia, Meihua Yu*. ZnO microspheres: Controllable preparation and optical properties. Superlattices and Microstructures, 2015, 86: 228-235.
[16] Yongqian Wang*, Jun Yang, Junhan Kong, Hanxiang Jia, Zhengshu Wang, Hongyun Jin, Meihua Yu. Synthesis of radial-like ZnO structure by hydrothermal method with ZnSO4·7H2O and Zn(CH3COO)2·2H2O as zinc sources. Crystal Research & Technology, 2015, 50(5): 414-419.
[17] Yongqian Wang*, Yinchang Li, Jun Yang, Fei Li, Junxia Wang, Jieyu Chen. Controlled synthesis of pricky CuO microspheres and their luminescent, photocatalytic properties. Materials Technology: Advanced Performance Materials, 2015, 30(5): 269-275.
[18] Qiao Chen, Yongqian Wang*, Mingyan Zheng**, Hao Fang, Xiang Meng. Nanostructures confined self-assembled in biomimetic nanochannels for enhancing the sensitivity of biological molecules response, Journal of Materials Science: Materials in Electronics, 2018, 29(23): 19757-19767.
[19] Junhan Kong, Yongqian Wang*, Qimeng Sun, Dawei Meng**. Synthesis and photocatalytic property of Ce-doped TiO2 nanotube arrays via anodic oxidation. Journal of Electronic Materials, 2017, 46: 4791-4797.
[20] Xiande Yang, Yongqian Wang*, Zhengshu Wang, Xiangzhou Lv, Hanxiang Jia, Junhan Kong, Meihua Yu. Preparation of CdS/TiO2 nanotube arrays and the enhanced photocatalytic property. Ceramics International, 2016, 42: 7192-7202.
[21] Dagui Wang, Yongqian Wang*, Tingting Jiang, HanxiangJia, Meihua Yu. The preparation of M (M: Mn2+, Cd2+, Zn2+)-doped CuO nanostructures via the hydrothermal method and their properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 2138-2145.
[22] Bing Yan, Yongqian Wang*, Tingting Jiang, Xiuling Wu**. Fabrication of snowflake-like CuO nanostructure via electrodeposition method and its properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 4035-4042.
[23] Bing Yan, Yongqian Wang*, Tingting Jiang, Xiuling Wu. Synthesis and enhanced photocatalytic property of La-doped CuO nanostructures by electrodeposition method. Journal of Materials Science: Materials in Electronics, 2016, 27: 5389-5394.
[24] Tingting Jiang, Yongqian Wang*, Dawei Meng**, Dagui Wang. One-step hydrothermal synthesis and enhanced photocatalytic performance of pine-needle-like Zn-doped CuO nanostructures. Journal of Materials Science: Materials in Electronics, 2016, 27: 12884-12890.
[25] Jun Yang, Yongqian Wang*, Junhan Kong, Meihua Yu, Hongyun Jin. Preparation of controlled ZnO nanostructures and their optical properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 7227-7232.
[26] Junhan Kong, Yongqian Wang*, Zhengshu Wang, Hanxiang Jia. Preparation and photocatalytic activity of carbon coating TiO2 nanotubes. Superlattices and Microstructures, 2016, 89: 252-258.
[27] Qun Ma, Yongqian Wang*, Junhan Kong, Hanxiang Jia, Jun Han. Hydrothermal synthesis, characterization and optical properties of ZnO nanosheets. Optoelectronics and Advanced Materials-Rapid Communications, 2016, 10(9-10): 728-731.
[28] Tingting Jiang, Yongqian Wang*, Dawei Meng*, Junhan Kong, Hanxiang Jia, Zhengshu Wang. Self-assembly growth of nanostructured copper compound and their photocatalytic performance. European Journal of Inorganic Chemistry, 2015, 28: 4715-4721.
[29] Yinchang Li, Yongqian Wang*, Junhan Kong, Junxia Wang. Synthesis and photocatalytic activity of TiO2 nanotubes co-doped by erbium ions. Applied Surface Science, 2015, 328: 115-119.
[30] Yinchang Li, Yongqian Wang*, Junhan Kong, Hanxiang Jia, Zhengshu Wang. Synthesis and characterization of carbon modified TiO2 nanotube and photocatalytic activity on methylene blue under sunlight. Applied Surface Science. 2015, 344: 176-180.
[31] Jun Yang, Yongqian Wang*, Tingting Jiang, Yinchang Li, Xiande Yang. ZnO/Er2O3 core-shell nanorod arrays: Synthesis, properties and growth mechanism. Applied Surface Science, 2015, 325: 117-123.
[32] Jun Yang, Yongqian Wang*, Junhan Kong, Hanxiang Jia, Zhengshu Wang. Synthesis of ZnO nanosheets via electrodeposition method and their optical properties, growth mechanism. Optical Materials, 2015, 46: 179-185.
[33] Qun Ma, Yongqian Wang*, Junhan Kong, Hanxiang Jia, Zhengshu Wang. Controllable synthesis of hierarchical flower-like ZnO nanostructures assembled by nanosheets and its optical properties. Superlattices and Microstructures, 2015, 84:1-12.
[34] Tingting Jiang, Yongqian Wang*, Dawei Meng, Meihua Yu. Facile synthesis and photocatalytic performance of self-assembly CuO microspheres. Superlattices and Microstructures, 2015, 85: 1-6.
[35] Xiande Yang, Yongqian Wang*, Tingting Jiang, Jun Yang, Yinchang Li, Qun Ma. Preparation of dendritic-like CdS by hydrothermal method and its photocatalytic performance. Crystal Research & Technology, 2015, 50(4): 338-345.
[36] Xiande Yang , Yongqian Wang*, Zhengshu Wang, Qun Ma, Junhan Kong, Hanxiang Jia, Meihua Yu. Optical properties of flower-like CdS prepared by a hydrothermal method with SDBS as surfactant. Crystal Research & Technology, 2015, 50(8): 658-667.
[37] 孔峻涵, 王永钱*, 李印昌, 贾汉祥, 于梅花. 阳极氧化工艺制备TiO2纳米管阵列及其碳包覆改性. 人工晶体学报, 2015, 44(7): 1812-1819.
[38] Yehan Xiong, Guangwen Lu, Yongqian Wang*, Qimeng Sun**. Synthesis and influence factors study of 4A molecular sieve via halloysite, Journal of Electronics Materials, 2019, 48: 7756-7761.
[39] Bing Yan, Qun Ma, Yongqian Wang*, Jieyu Chen**. Synthesis, characterization and antibacterial activity of ZnS-ZnO nanocomposites. Materials Technology, 2017, 32(5): 299-304.
[40] Qun Ma, Xiangzhou Lv, Yongqian Wang*, Jieyu Chen**. Optical and photocatalytic properties of Mn doped flower-like ZnO hierarchical structures. Optical Materials, 2016, 60: 86-93.
[41] Xuefeng Wang, Hanxiang Jia, Yongqian Wang*, Yinchang Li, Zhengyu Bao. The photocatalytic performance research of La2O3 modified TiO2 nanotube arrays. Journal of Materials Science: Materials in Electronics, 2016, 27: 7073-7078.
[42] Tingting Jiang, Junhan Kong, Yongqian Wang*, Dawei Meng*, Dagui Wang, Meihua Yu. Optical and Photocatalytic properties of Mn-doped CuO nanosheets prepared by hydrothermal method. Crystal Research and Technology, 2015, 51(1): 58-64.
[43] Hao Fang, Zhijun Wang, Qiao Chen, Yongqian Wang*. C@ZnO self-assembly composite nanostructure with a strong absorption capacity in UV-visible light and its optical properties, Journal of Electronics Materials, 2019, 48(11): 7263-7269.
[44] Junhan Kong, Tianyi Zhou, Xiuling Wu*, Yongqian Wang**. Confined assembly of TiO2 nanostructures in the nanochannels of AAO membrane, Journal of Materials Science: Materials in Electronics, 2018, 29: 4933-4939.
[45] Minghao Xia, Lingling Huang, Yubo Zhang, Yongqian Wang*. Enhanced photocatalytic activity of La3+-doped TiO2 nanotubes with full wave-band absorption, Journal of Electronic Materials, 2018, 47: 5291-5295.
[46] Qun Ma, Zhengshu Wang, Hanxiang Jia, Yongqian Wang*. Facile synthesis of ZnS-ZnO nanocomposites for enhanced photocatalytic activity. Materials Research Innovations, 2017, 21(2): 74-78.
[47] Xiangzhou Lv, Guangbo Hu, Jinsheng Tang, Yongqian Wang*. New thoughts into the fabrication of ZnO nanoparticles: confined growth in the channels of AAO membrane and its formation mechanisms, Journal of Materials Science: Materials in Electronics, 2017, 28: 14163-14169.
[48] Xiangzhou Lv, Xinchuan Liu, Qimeng Sun, Yongqian Wang*, Bing Yan**. Growth and optical properties of hierarchical flower-like ZnO nanostructures. Ceramics International, 2017, 43: 3306-3313.
[49] Jun Yang, Chao Xu, Ting Ye, Yongqian Wang*, Dawei Meng**. Synthesis of S-doped hierarchical ZnO nanostructures via hydrothermal method and their optical properties. Journal of Materials Science: Materials in Electronics, 2017, 28: 1785-1792.
[50] Xiande Yang, Zhengshu Wang, Xiangzhou Lv, Yongqian Wang*, Hanxiang Jia. Enhanced photocatalytic activity of Zn-doped dendritic-like CdS structures synthesized by hydrothermal synthesis. Journal of Photochemistry and Photobiology A: Chemistry, 2016, 329: 175-181.
[51] Jun Yang, Hanxiang Jia, Xiangzhou Lv, Yongqian Wang*. Facile preparation of urchin-like ZnO nanostructures and their photocatalytic performance. Ceramics International, 2016, 42: 12409-12413.
[52] Qun Ma, Zhengshu Wang, Hanxiang Jia, Yongqian Wang*. ZnS-ZnO nanocomposites: synthesis, characterization and enhanced photocatatlytic performance. Journal of Materials Science: Materials in Electronics, 2016, 27: 10282-10288.
[53] Yan Chen, Qun Ma, Hanxiang Jia, Yongqian Wang*. Hydrothermal synthesis of ZnS microspheres with highly effective photocatalytic and antibacterial properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 10237-10243.
[54] Zhengshu Wang, Xiande Yang, Hanxiang Jia, Yongqian Wang*. Preparation of self-assembled hollow microsphere CdS via solvothermal method and its optical properties. Journal of Materials Science: Materials in Electronics, 2016, 27: 9725-9733.
[55] Dagui Wang, Caixiong Song, Xiangzhou Lv, Yongqian Wang*. Design of preparation parameters for commendable photocatalytic properties in CuO nanostructures. Applied Physics A: Materials Science & Processing, 2016, 122: 1020-1029.
[56] Yan Chen, Bin Zhou, Qimeng Sun, Yongqian Wang*, Bing Yan**. Synthesis and luminescence properties of Sr3MgSi2O8:Ce3+, Tb3+ for application in near ultraviolet excitable white light-emitting-diodes. Superlattices and Microstructures, 2016, 100: 158-167.
[57] Tinglan Wang, Wei Zhang, Lingyue Wang, Yubo Zhang, and Yongqian Wang*. Self-assembled tulip-flower/mulberry-like CuO nanostructures by electrodeposition method and their photocatalytic performance, Journal of Electronics Materials, 2020, 49: 1482-1488.
[58] Qimeng Sun, Xudong Yang, Jun Ma, Xinchuan Liu*, Yongqian Wang**. Controllable synthesis of MoS2@TiO2 composite nanostructure by anodic oxidation-hydrothermal technique, Journal of Electronics Materials, 2019, 48(4): 2144-2151.
[59] Xiande Yang, Boyou Wang, Yu Mu, Mingyan Zheng*, Yongqian Wang**. Photocatalytic performance of cubic and hexagonal phase CdS synthesized via different Cd sources, Journal of Electronics Materials, 2019, 48(5): 2895-2901.
[60] Xiande Yang, Guangwen Lu, Boyou Wang, Tinglan Wang, Yongqian Wang*. Synthesis, growth mechanism and photocatalytic H2 evolution of CdS/CuS composite via hydrothermal method, RSC Advances,2019, 9: 25142-25150.
[61] Junhan Kong, Yu Mu, Yehan Xiong, Mingyan Zheng*, Yongqian Wang**. Fabrication of both TiO2 nanostructures and cysteine-modified AAO membranes and their application in chiral selective transport of proteins, Journal of Electronic Materials, 2019, 48(2): 964-971.
[62] Qun Ma, Xudong Yang, Xiangzhou Lv, Hanxiang Jia, Yongqian Wang*. Cu doped ZnO hierarchical nanostructures: Morphological evolution and photocatalytic property, Journal of Materials Science: Materials in Electronics, 2019, 30(3): 2309-2315.
[63] Xiande Yang, Yuxiao Yang, Boyou Wang, Tinglan Wang, Yongqian Wang*, Dawei Meng**. Synthesis and photocatalytic property of cubic phase CdS, Solid State Sciences, 2019, 92: 31-15.
[64] Dagui Wang, Bing Yan, Caixiong Song, Ting Ye, Yongqian Wang*. Synthesis of hierarchical self-assembled CuO and their structure enhanced photocatalytic performance, Journal of Electronic Materials, 2018, 47(1): 744-750.
[65] Yan Chen, Tinglan Wang, Tianyi Zhou, Minghao Xia, Yongqian Wang*. Ce3+-doped silicate-based down-conversion phosphors: investigation on synthesis, structure and potoluminescence properties, Journal of Materials Science: Materials in Electronics, 2018, 29: 5573-5578.
[66] Junhan Kong, Zhe Liu, Yehan Xiong, Zhanhong Liu, Yongqian Wang*. Synthesis and photo-catalytic property of TiO2 nanotube arrays/ZnS. Applied Physics A: Materials Science & Processing, 2017, 123 (4): 249.
[67] Qun Ma, Xinchuan Liu, Chao Xu, Fan Xia, Yongqian Wang*, DaweiMeng**. Photoluminescence and photocatalytic activity of ZnO/Mn hierarchical structures. Journal of Electronic Materials, 2017, 46(1): 347-353.
[68] Xiande Yang, Xudong Yang, Tinglan Wang, Boyou Wang, Qiao Chen, Yongqian Wang*, Deliang Liu**. CdS structures prepared in AAO nanochannels via different synthesis methods under limited condition, New Journal of Chemistry, 2020, 44: 64-71.
[69] Xiande Yang, Tinglan Wang, Hongyuan Zhang, Qiao Chen, Boyou Wang, Yongqian Wang*. Chiral cysteine selective transport of proteins by CdS nanostructures modified anodic aluminum oxide template, Journal of Photochemistry and Photobiology A: Chemistry, 2019, 38: 111830-111836.
[70] Xiande Yang, Jun Ma, Tinglan Wang, Boyou Wang, Dawei Meng*, Yongqian Wang**. Synthesis, growth mechanism and photocatalytic property of CdS with different kinds of surfactants, New Journal of Chemistry, 2019, 43: 10126-10133.
[71] Qiao Chen, Tinglan Wang, Boyou Wang, Xiande Yang, Fei Li, Yongqian Wang*. Construction of CuO/CdS composite nanostructure for photodegradation of pollutants in sewage, Journal of Materials Science: Materials in Electronics, 2019, 30(17): 15989-15999.
[72] Yan Chen, Xudong Yang, Boyou Wang, Li Dai, Qiao Chen*, Yongqian Wang**. Eu3+-doped Sr2(Al1-xMgx)(Al1-xSi1+x)O7 phosphors: Electronic, crystal structures and potoluminescence properties, Journal of Materials Science: Materials in Electronics, 2019, 30(2):1246-1254.
[73] Junhan Kong, Wei Zhang, Yubo Zhang, Minghao Xia, Xiuling Wu*, Yongqian Wang**. Enhancing photocatalytic activity on (MnO@TNTAs):Mn2+ with a hierarchical sandwich-nanostructure via a two-step procedure, Journal of Electronic Materials, 2018, 57(4): 2800-2807.
[74] Xinchuan Liu, Tinglan Wang, Guangbo Hu, Chao Xu, Yehan Xiong, Yongqian Wang*. Controllable synthesis of self-assembled MoS2 hollow spheres for photocatalytic application, Journal of Materials Science: Materials in Electronics, 2018, 29: 753-761 .
[75] Junhan Kong, Caixiong Song, Wei Zhang, Yehan Xiong, Miao Wan*, Yongqian Wang**. Enhanced visible-light-active photocatalytic performances on Ag nanoparticles sensitized TiO2 nanotube arrays. Superlattices and Microstructures, 2017, 109: 579-587.
[76] 吕祥舟, 贾汉祥, 王正树, 张严, 陈俊杰, 刘凤翔, 吴秀玲, 王永钱*. 电沉积工艺制备纳米ZnO及其生长机理. 电子显微学报, 2016, 35(4): 321-327.
[77] Qiao Chen, DeLiang Liu, Binhua Cao, Zhijun Wang, Tinglan Wang, Boyou Wang, Ziyi Wang, Yuxiao Yang, Xiaobo Xiong, Yongqian Wang*. Enhanced photodegradation activity of organic pollutants contained in sewage through construction of CuO/Ag composite nanostructure, Journal of Electronics Materials, 2020, 49: 2032-2039.
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