低压化学气相沉积法生长的 B 掺杂 ZnO 薄膜具有良好的光散射特性,可以用作硅基薄膜太阳能电池的前电极.以 Zn (C2 H 5)2和 H 2 O 为前驱体, B2 H 6为掺杂物,通过低压化学气相沉积法在玻璃衬底上生长了 B 掺杂 ZnO 薄膜.通过 XRD、FESEM、四探针测试仪等手段对样品的结构特征、微观形貌及导电性能进行表征,着重研究了(110)取向的 BZO 薄膜的生长机理.结果表明,厚度在500 nm 以下的 BZO 薄膜主要表现为(002)取向,随着厚度的增加,薄膜取向开始向(110)转变.所得 BZO 镀膜玻璃在400~1000 nm范围内总透过率>80%,雾度最高可达28%(550 nm),方块电阻最低约7Ω/□,电阻率最低约1.0×10-3Ω?cm.
Transparent conductive B doped ZnO (BZO)film grown by low pressure chemical vapor deposition (LPCVD)has been emerging as an efficient light scattering front electrode for thin film silicon solar cells.In the study ,high quality BZO films were grown on glass substrates by LPCVD using Zn(C2 H 5 )2 ,H 2 O as precursors and B2 H 6 as the dopant.The crystalline structure,morphology and electrical properties were characterized by X-ray diffraction (XRD),field-emitting scanning electron microscope (FESEM)and four-probe method.The re-sults show that the thinner films (<500 nm)exhibit (002)preferred orientation,while the crystal orientation evolves to (1 10)with the increase of film thickness.The BZO coated glasses exhibit high transmittance (about 80%)in the visible and near-infrared range,and the (1 10)oriented BZO films present significant diffusive trans-mittance with the haze (at 550 nm)up to 28%.The BZO films with sufficient thickness show good conductivity with sheet resistance down to about 7 Ω/□ and resistivity down to about 1.0×10 -3Ω?cm.
参考文献
| [1] | Meier J.;Dubail S.;Golay S.;Kroll U.;Fay S.;Vallat-Sauvain E. Feitknecht L.;Dubail J.;Shah A. .Microcrystalline silicon and the impact on micromorph tandem solar cells[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2002(1/4):457-467. |
| [2] | J. Meier;J. Spitznagel;U. Kroll;C. Bucher;S. Faye;T. Moriarty;A. Shah .Potential of amorphous and microcrystalline silicon solar cells[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2004(3):518-524. |
| [3] | Ginley D S.Handbook of transparent conductors[M].New York:Springer-Verlag,2010:518. |
| [4] | Yan Wang;Yucheng Wu;Yongqiang Qin;Zhihai Zhang;Chengwu Shi;Qingfeng Zhang;Changhao Li;Xiaohong Xia;Stanley Sun;Leon Chen .Large-area SnO_2: F thin films by offline APCVD[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2011(8):1262-1265. |
| [5] | Meier J;Kroll U;Dubail S.Efficiency enhancement of amorphous silicon p-i-n solar cells by LP-CVD ZnO[A].Anchorage,2000:746-749. |
| [6] | Meier J;Spitznagel J;Fa?S.Enhanced light-trap-ping for micromorph tandem solar cells by LP-CVD ZnO[A].New Orleans,2002:1118-1121. |
| [7] | Fay S;Kroll U;Bucher C;Vallat-Sauvain E;Shah A .Low pressure chemical vapour deposition of ZnO layers for thin-film solar cells: temperature-induced morphological changes[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2005(3):385-397. |
| [8] | Fay S;Steinhauser J;Oliveira N;Vallat-Sauvain E;Ballif C .Opto-electronic properties of rough LP-CVD ZnO : B for use as TCO in thin-film silicon solar cells[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2007(24):8558-8561. |
| [9] | Fa?S;Steinhauser J;Nicolay S et al.Polycrystalline ZnO:B grown by LPCVD as TCO for thin film silicon solar cells[J].THIN SOLID FILMS,2010,5 18:2961-2966. |
| [10] | Zimin D;Despont L;Gossla M.[A].Spain,2008:2494-2496. |
| [11] | 刘永利,刘欢,祁阳.沉积速率对ZnO薄膜生长过程和微结构影响的分子反应力场方法研究[J].功能材料,2013(10):1418-1421,1427. |
| [12] | Ellmer K;Klein A;Rech B.Transparent conductive zinc oxide:basics and applications in thin film solar cells[M].New York:Springer-Verlag,2008:245. |
| [13] | Jun-Liang Zhao;Xiao-Min Li;Sam Zhang .Highly (002)-oriented ZnO film grown by ultrasonic spray pyrolysis on ZnO-seeded Si (100) substrate[J].Journal of Materials Research,2006(9):2185-2190. |
| [14] | J.L Zhao;X.W. Sun;H. Ryu;Y.B. Moon .Thermally stable transparent conducting and highly infrared reflective Ga-doped ZnO thin films by metal organic chemical vapor deposition[J].Optical materials,2011(6):768-772. |
| [15] | K. Barmak;J. Kim;C.-S. Kim .Grain Boundary Energy and Grain Growth in Al Films: Comparison of Experiments and Simulations[J].Scripta materialia,2006(6):1059-1063. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%