不同方法及衬底类型对CdS多晶薄膜性能的影响被引量：1

Effect of different substrates on the properties of CdS thin film deposited by different technique

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摘要采用化学水浴法和磁控溅射法分别在AZO、FTO、ITO透明导电玻璃衬底上制备了CdS薄膜,利用扫描电镜、XRD以及透射光谱等测试手段,研究了两种制备方法对不同衬底生长CdS薄膜形貌、结构和光学性能的影响.研究结果表明,不同方法制备的CdS薄膜表面形貌均依赖于衬底的类型,水浴法制备的CdS薄膜晶粒度较大,表面相对粗糙.不同方法制备的CdS薄膜均为立方相和六角相的混相结构,溅射法制备的多晶薄膜衍射峰清晰、尖锐,结晶性较好.水浴法制备的CdS薄膜透过率整体低于溅射法,但在短波处优势明显. The CdS thin films were prepared on ITO, FTO and AZO substrates by RF magnetron sputtering technique and chemical bath deposition technique. The morphology, structure and optical properties of all samples were character- ized by the scanning electron microscopy, X-ray diffraction and ultraviolet-visible spectroscopy. The results show that the microstructure of CdS thin films dependent on the type of substrate by different deposition techniques, the grain size is larger by chemical bath deposition technique, but the surface are relatively rough. All the prepared CdS thin films show a mixed phase structure of cubic and hexagonal. The diffraction peaks by sputtering is clear, sharp, and the crystal- line is better than chemical bath deposition technique. The optical transmittance of CdS thin film by chemical bath deposition technique is inferior to those of CdS films by sputtering, but the advantage in the short wave direction is clearly.

作者丛家铭潘永强邬云华张传军王善力

机构地区西安工业大学光电工程学院上海太阳能电池研究与发展中心中国科学院上海技术物理研究所红外物理国家重点实验室

出处《红外与毫米波学报》 SCIE EI CAS CSCD 北大核心 2014年第2期149-153,共5页 Journal of Infrared and Millimeter Waves

基金中国科学院知识创新工程重要方向项目(KGCX2-YW-384) 上海市2012年度"科技创新行动计划"节能减排领域项目(12dz1201000)~~

关键词 CDS薄膜磁控溅射化学水浴 TCO CdS thin film, magnetron sputtering, chemical bath deposition, TCO

分类号 O484.4 [理学—固体物理]

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参考文献12

1Tsuji M, Aramoto T, Ohyama H, et al. Characterization of CdS thin film in high efficient CdS/CdTe solar cells [ J ]. Journal of Crystal Growth, 2000,214 -215 : 1142 - 1147.
2Glynn S, Duenow J, et al, Required materials properties for high-efficiency CIGS modules [ R ], NREL/CP-520-46235, presented at the Society of Photographic Instrumentation En- gineers (SPIE) 2009 Solar Energy + Technology Confer- ence. San Diego, California: August 2 - 6, 2009.
3First Solar Inc. http://www. Firstsolar. c om /[ 2013-2-26 ].
4Jackson P, Hariskos D, Lotter E, et al. New world record efficiency for Cu (In, Ga) Se2 thin-film solar cells beyond 20% [ J]. Progress in Photovoltaics: Research and Applica- tions, 2011,19(7) : 894-897.
5Todorov T K, Tang J, Bag S, et al. Beyond 11% efficien- cy: characteristics of state-of-the-art Cu2ZnSn (S, Se) 4 solar cells [ J ]. Advanced Energy Materials, 2013,3 ( 1 ) : 34 - 38.
6Yao C Z, Wei B H, Meng L X, et al. Controllable electro- chemical synthesis and photovohaic performance of ZnO/ CdS core-shell nanorod arrays on fluorine-doped tin oxide [ J ]. Journal of Power Sources, 2012,207 : 222 - 228.
7Boyle D S, Bayer A, Heinrich M R, et al. Novel approach to the chemical bath deposition of chalcogenide semiconduc- tors[J]. Thin Solid Films, 2000,361 : 150 - 154.
8Altosaar M, Emits K, Kmstok J, et al. Comparison of CdS films deposited from chemical baths containing different doping impurities[J]. Thin Solid Films, 2005,480: 147- 150.
9Ringel S A, Sudharsanan R, Rohatgi A, et al. Effects of annealing and surface preparation on the properties of poly- crystalline CdZnTe films grown by molecular beam epitaxy [J]. Journal of Vacuum Sc&nce & Technology A: Vacuum, Surfaces, and Films, 1990,8(3): 2012-2019.
10Vasko A C, All-sputtered CdS/CdTe solar cells on polyim- ide[ C ], lnProceeding of the 34th 1EEE Photovoltaic Spe- cialists Conference (PVSC), Philadelphia, Pennsylvania USA, June 7 - 12,2009,p: 001552 -001555.

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1李卫,冯良桓,蔡亚平,张静全,郑家贵,蔡伟,黎兵,武莉莉,雷智.太阳电池中CdS多晶薄膜的微结构及性能[J].Journal of Semiconductors,2005,26(1):46-51. 被引量：11
2Wang X, Tian W, Liao M, et al. [J]. Chemical Society Reviews, 2014,43(5) :1400-1422.
3Yasar S,Kahraman S, Cetinkaya S, et al. [J]. Journal of Alloys and Compounds,2015,618(1) :217-221.
4Koike J,Chino K,Aihara N,et al. [J]. Japanese Journal of Ap- plied Physics, 2012,51 (10) : 10NC341-343.
5Tiwari D,Chaudhuri T K,Shripathi T, et al. [J]. Solar Energy Materials And Solar Cells, 2013,113(6) : 165-170.
6Yu S, Wei Z, Dong X X, et al. [J]. Materials Research Innova- tions, 2014,18 (S5) : 69-72.
7Chaparro A M, Martinez M A,Guillen C, et al. [J]. Thin Solid Films, 2000,361/362(2) : 177-182.
8Wu Y, Xi Z, Zhang G, et al. [J]. Crystal Growth & Design, 2008,8(8) 2646-2651.
9Yan C, Liu J, Liu F, et al. [J]. Nanoscale Research Letters, 2008,3 (12) : 473-480.
10Fernandes P A,Salome P M P,Cunha A F d. [J]. Journal of Physics D: Applied Physics, 2010,43(21) : 21540301-21540311.

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3邹凯,李蓉萍,刘永生,田磊,冯松.Pr掺杂CdS薄膜的制备及其光电性能研究[J].稀土,2014,35(4):62-66. 被引量：3
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5黄小融,郑家贵,黎兵,蔡伟.退火对CdS多晶薄膜电学性质的影响[J].西南民族学院学报（自然科学版）,1999,25(2):169-172.
6赵湘辉,魏爱香,招瑜.反应前驱物中n(S):n(Cd)对CdS薄膜结构及发光特性的影响[J].发光学报,2011,32(8):793-797.
7徐鹏,刘庭芝,多树旺,郭岚.pH值的变化对ZnS薄膜光学性质的影响[J].太阳能学报,2011,32(2):229-234.
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不同方法及衬底类型对CdS多晶薄膜性能的影响被引量：1

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不同方法及衬底类型对CdS多晶薄膜性能的影响被引量：1