采用离子束溅射的方法在玻璃衬底上制备CdS多晶薄膜,研究了沉积过程中基底温度(100~400℃)与薄膜厚度(35~200nm)对其微结构与光电性能的影响.结果表明,不同基底温度下制备的CdS薄膜均属于六方相多晶结构且具有(002)择优取向生长特征;随着基底温度的升高,(002)特征衍射峰强度增加,半高宽变小相应薄膜结晶度增大,有利于颗粒的生长;分析CdS薄膜的光谱图线可知,薄膜在可见光区平均透射率高于75%,光学带隙值随着基底温度升高而增大(2.33~2.42eV)且薄膜电阻高达109Ω;在基底温度为400℃条件下制备不同厚度的CdS薄膜,发现(50~100nm)较薄的CdS薄膜具有较为明显的六方相CdS多晶薄膜结构、较优光学性能和高电阻值,满足CIS基太阳电池中缓冲层材料的基本要求.
参考文献
| [1] | Castillo S J;Mendoza-Galvan A et al.[J].Thin Solid Films,2000,372:144-148. |
| [2] | Soundeswaran S;Senthil Kumar O;Dhanasekaran R .[J].Materials Letters,2004,58:2381-2385. |
| [3] | Sasikala G;Thilakan P;Subramanian C .[J].Solar Energy Materials & Colar Cells,2000,62:275-293. |
| [4] | Vigil O;Arias-Carbajal A;Cruz F et al.[J].Materials Research Bulletin,2001,36:521-530. |
| [5] | Compaan A D;Gupta A;Lee S H et al.[J].Journal of Solar Energy Engineering,2004,77(06):815-822. |
| [6] | Moutinho HR.;Albin D.;Yan Y.;Dhere RG.;Li X.;Perkins C.;Jiang CS. To B.;Al-Jassim MM. .Deposition and properties of CBD and CSSUS thin films for solar cell application[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2003(2):175-180. |
| [7] | 杨定宇,郑家贵,朱兴华,魏昭荣,杨军,高秀英.电子束蒸发制备CdS多晶薄膜及性质研究[J].真空科学与技术学报,2009(04):427-430. |
| [8] | Fan P;Liang G X;Zheng Z H.[J].Journal of Materials Science:Materials in Electronics,2009 |
| [9] | Subba Ramaiah K;Pilkington R D;Hill A E et al.[J].Materials Chemistry and Physics,2001,68(01):22-30. |
| [10] | 敖建平,孙云,刘琪,何青,孙国忠,刘芳芳,李凤岩.CIGS电池缓冲层CdS的制备工艺及物理性能[J].太阳能学报,2006(07):682-686. |
| [11] | Lee J .[J].Thin Solid Films,2004,451:170-174. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%