王海(桂林理工大學副研究員)

王海(桂林理工大學副研究員)

王海主要從事低維納米材料的可控合成、功能化組裝及相應太陽電池的設計、製備和性能的教學與科研工作。

基本介紹

  • 中文名:王海
  • 民族:漢族
  • 出生地湖北荊州
  • 出生日期:1974年
  • 職業:桂林理工大學副研究員
簡介,教育與工作經歷,科學研究工作,近年來在研與完成的項目,近年來主要學術論文,申請和授權的專利,

簡介

王 海,男,漢族,1974年生,湖北荊州人,中共黨員,博士,副研究員,主要從事低維納米材料的可控合成、功能化組裝及相應太陽電池的設計、製備和性能的教學與科研工作。

教育與工作經歷

2001.7-2004.7,華南理工大學材料科學與工程學院,材料學專業,獲碩士學位;
2004.7-2007.7,桂林工學院材料與化學工程系任教,講師(2005年);
2007.7-2010.6,中山大學物理科學與工程學院,凝聚態物理專業,獲理學博士學位,副研究員(2009年);
2010.6-至今, 桂林理工大學材料科學與工程學院,無機非金屬材料教研室

科學研究工作

主要研究方向為:(1)低維納米材料的可控合成、功能化組裝及相應太陽電池的設計、製備和性能的研究;(2)智慧型太陽能照明系統;(3)無機顏料的製備及其工業化套用。

近年來在研與完成的項目

1. 自治區重點實驗室培育—新材料及其製備新技術重點實驗室建設開放基金(桂科能063006-5C-28)
2007-2008
2. 2007年度廣西教育廳專利資助項目:孔徑尺寸可控二氧化鈦多孔陶瓷的製備及其套用研究
(200700ZL023),2007-2008
3. 2007年度廣西教育廳專利資助項目:聚羧酸系陶瓷減水劑的製備及其套用研究(200700ZL024),
2007-2008

近年來主要學術論文

[1] H. Wang, Y. Liu, M. Li, H. Huang, M. Zhong, H. Shen, Hydrothermal growth of large-scale macroporous TiO2 nanowires and its application in 3D dye-sensitized solar cells. nature (2009) 25-29.
[2] H. Wang, Y. Liu, H. Huang, M. Zhong, H. Shen, Y. Wang, H. Yang, Low resistance dye-sensitized solar cells based on all-titanium substrates using wires and sheets. Applied Surface Science 255 (2009) 9020-9025.
[3] H. Wang, Y. Liu, H. Xu, X. Dong, H. Shen, Y. Wang, H. Yang, An investigation on the novel structure of dye-sensitized solar cell with integrated photoanode. Renewable Energy 34 (2009) 1635-1638.
[4] H.Wang, Y. Liu, M. Li, H. Huang, H. Xu, R Hong, H. Shen, Multifunctional TiO2 nanowires-modified nanoparticles bilayer film for 3D dye-sensitized solar cells. Optoelectronics and Advanced Materials-Rapid Communications.8 (2010)1166-1169
[5] H. Wang, Y. Liu, H. Xu, M. Zhong, H. Huang, H. Shen, In situ controlled synthesis of various TiO2 nanostructured materials via a facile hydrothermal route. Journal of Nanoparticles Research. DOI 10.1007/s11051-010-9933-2.
[6] H. Wang, Y. Liu, M. Li, M. Zhong, H. Huang, H. Xu, H. Shen, 3D ZnO composite nanostructure of nanorods and nanosheets grown directly on TiO2 nanoparticles by a one-step route. Applied Physics A: Materials Science & Processing. DOI: 10.1007/s00339-010-6010-8.
[7] H. Wang, Y. Liu, M. Li, Y. Wang, H. Huang, H. Shen, Highly flexible frontilluminated dye-sensitized solar cells using three-dimensional network TiO2 nanowires. Journal of Nanoscience and Nanotechnology (Accepted) (2010).
[8] Y. Liu, H. Wang, H. Shen, W. Chen, The 3-dimensional dye-sensitized solar cell and module based on all titanium substrates. Applied Energy 87 (2009) 436-441.
[9] Y. Liu, H. Wang, M. Li, R. Hong, Q. Ye, J. Zheng, H. Shen, Frontside illuminated TiO2 nanotube dye-sensitized solar cells using multifunctional microchannel array electrodes. Applied Physics Letters 95 (2009) 233505/233501-233505/233503.
[10] M. Zhong, H. Wang, Y. Liu, M. Li, H. Huang, H. Shen, ZnO microsheets modified TiO2 nanoparticles composite film for dye-sensitized solar cells. Chinese Science Bulletin 55 (2009) 1945-1948.
[11] Y. Liu, M. Li, H. Wang, Q. Ye, J. Zheng, H. Xu, H. Shen, Synthesis of TiO2 nanotube arrays and its application in mini-3D dye-sensitized solar cells. Journal of Physics. D: Applied Physics. 43(2010) 205103-205108.
[12] Y. Liu, H. Shen, W. Chen, H. Wang, Y.-J. Deng, D.-H. Wang, Novel photoelectrochromic cells fabricated with wirelike photo-electrode. Chinese Science Bulletin 53 (2008) 3173-3177.
[13] L. Tao, H. Shen, H. Wang, In-line measurements and analysis for the crystalline silicon solar cell shunts. Taiyangneng Xuebao 30 (2009) 1083-1086.
[14] Y.H. Wang, Y. Liu, H.X. Yang, H. Wang, H. Shen, M. Li, J. Yan, An investigation of DNA-like structured dye-sensitized solar cells. Current Applied Physics 10 (2010) 119-123.
[15] X. Wang, J. Ye, H. Wang, Effects of additives on the rheological properties and injectability of a calcium phosphate bone substitute material. Journal of Biomedical Materials Research, Part B: Applied Biomaterials 78B (2006) 259-264.
[16] H. Wang, X.P. H. Wang, J.D. Ye, Y.J. Wang, P.G. Rao, Rheological properties and injectability of a calcium phosphate bone substitute material. Key Engineering Materials 288-289 (2005) 557-560.
[17] H. Wang, H. Li, S. Liu, Preparation of TiO2 porous ceramic. Gongneng Cailiao 36 (2005) 1698-1700.
[18] H. Wang, Testing and analysis of X-ray absorption spectrum for TiO2 nanomaterials. Guisuanyan Tongbao 25 (2006) 206-209.
[19] H. Wang, L. Tao, Synthesis and mechanism of formation PI/MM nanocomposite. Guisuanyan Tongbao 25 (2006) 38-41.
[20] H. Wang, J.-h. Yu, Preparation of ZrO2 porous ceramic with controlled pore size. Wuhan Ligong Daxue Xuebao 29 (2007) 33-35.
[21] W. Zhu, C. Hu, H. Wang, B. Wu, H. Zhang, L. Fang, Structure and dielectric properties of new niobates A5LaSn3Nb7O3)(A=Ba, Sr). Wuhan Ligong Daxue Xuebao 28 (2006) 5-7, 14.
[22] H. Wang, Preparation of porous ZrO2 ceramics with controlled pore size. Zhongguo Taoci Gongye 13 (2006) 7-9, 25.
[23] H. Wang, J. Ye, J. Wang, Preparation of low-cost single-fired zirconium-free calcium opaque opacified glaze. Zhongguo Taoci Gongye 10 (2003) 25-28.
(中文雜誌由SciFinder Scholar 檢索)
國際會議論文
[1] H. Wang, Y. Liu, M. Li, H. Shen, Self-assembled Multifunctional TiO2 Nanowire for Dye-Sensitize Solar Cells, The 1st International Symposium on Solar Cells and Solar Fuels, Dalian, China, 2009.
[2] H. Wang, Y. Liu, H. Shen, Synthesis of one-dimensional nanomaterials and its applications in all-titanium-based dye-sensitized solar cells, 2010 International Conference on Nanoscience and Nanotechnology (ICONN), Sydney, Australia 2010.(Oral presentation)

申請和授權的專利

申請發明專利10多項,獲得授權發明專利8項,獲得實用新型專利3項,向企業轉讓發明專利3項。
[1] H. Wang, Manufacture of microporous TiO2 ceramics having desired pore distribution and pore size, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2006, pp. 5 pp.
[2] H. Wang, H. Li, Method for preparing composite ceramic water reducing agent, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2006, pp. 4pp.
[3] H. Wang, H. Li, Method for synthesizing titanium dioxide nanotubes with high crystallinity at low temperature (80-130 DegC), in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2009, pp. 5pp.
[4] H. Wang, H. Li, Preparation of branch-like zinc oxide nanoparticles for anode material of dye-sensitized solar cells, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2009, pp. 4pp.
[5] H. Wang, H. Li, Method for manufacturing photoanode of flexible dye-sensitized solar cell by compressing titania nanofilm onto plastic substrate, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2009, pp. 4pp.
[6] H. Wang, H. Li, Method for preparation of one-dimensional rutile-type nanocrystalline TiO2 grown on Ti sheet, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2009, pp. 5pp.
[7] H. Wang, L. Tao, Method for preparing high-temperature-phase zirconia nano-power, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 5pp.
[8] H. Wang, L. Tao, C. Hu, Method for manufacturing lanthanum-doped lead zirconate titanate thin film on indium tin oxide-coated glass substrate, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 5pp.
[9] H. Wang, C. Zhang, G. Tian, Method for preparing niobium-chromium-doped rutile-type yellow pigment used in glaze, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 4pp.
[10] H. Wang, C. Zhang, G. Tian, Method for preparing manganese-doped corundum-type pink pigment, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 4pp.
[11] H. Wang, C. Zhang, G. Tian, Method for preparing chrome-tin pink type ceramic pigment, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 5pp.
[12] H. Wang, C. Zhang, G. Tian, Method for preparing iron- and titanium-doped spinel-type blue ceramic pigments with uniform particle size, controllable composition and high purity, in, (Guilin University of Technology, Peop. Rep. China). Application: CN, 2007, pp. 5pp.
[13] Y. Liu, H. Shen, Z. Sun, C. Feng, H. Wang, Z. Zhang, Dye-sensitized solar cells based on integrated filament photoanodes with high electron-collecting characteristics, in, (Sun Yat-Sen University, Peop. Rep. China). Application: CN, 2008, pp. 9pp.
[14] Y. Liu, H. Shen, H. Wang, H. Xu, Z. Sun, Z. Zhang, Dye-sensitized solar cells based on integrated grid-shaped electrodes with double-sided high-efficiency light absorption, in, (Sun Yat-Sen University, Peop. Rep. China). Application: CN, 2008, pp. 10pp.
[15] Y. Liu, H. Shen, Z. Zhang, X. Dong, H. Wang, Z. Sun, Dye-sensitized solar cells based on high surface-area meshed photoanodes with good light-absorbing efficiency, in, (Sun Yat-Sen University, Peop. Rep. China). Application: CN, 2008, pp. 9pp.
[16] H. Shen, D. Li, L. Zhang, M. Li, H. Wang, Solar cell with light-converging flat plate and its fabricating method, in, (Sun Yat-Sen University, Peop. Rep. China). Application: CN, 2009, pp. 10pp.
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