Effects of the ZnO buffer layer and Al proportion on AZO film properties 被引量：5

Effects of the ZnO buffer layer and Al proportion on AZO film properties

导出

摘要 To evaluate the influence of the ZnO buffer layer and Al proportion on the properties of ZnO: Al (AZO)/ZnO bi-layer films, a series of AZO/ZnO films are deposited on the quartz substrates by electron beam evaporation. The X-ray diffraction measurement shows that the crystal quality of the films is improved with the increase of the film thickness. The electrical properties of the films are investigated. The carrier concentration and Hall mobility both increase with the increase of buffer layer thickness. However, the resistivity reaches the lowest at about 50 nm-thick buffer layer. The lowest resistivity and the maximum Hall mobility are both obtained at 1 wt% Al concentration. But the optical transmittance of all the films is greater than 80% regardless of the buffer layer thickness with Al concentration lower than 5 wt% in the visible region. To evaluate the influence of the ZnO buffer layer and A1 proportion on the properties of ZnO： A1 （AZO）/ZnO bi-layer films, a series of AZO/ZnO films are deposited on the quartz substrates by electron beam evaporation. The X-ray diffraction measurement shows that the crystal quality of the films is improved with the increase of the film thickness. The electrical properties of the films are investigated. The carrier concentration and Hall mobility both increase with the increase of buffer layer thickness. However, the resistivity reaches the lowest at about 50 nm-thick buffer layer. The lowest resistivity and the maximum Hall mobility are both obtained at 1 wt% Al concentration. But the optical transmittance of all the films is greater than 80% regardless of the buffer layer thickness with A1 concentration lower than 5 wt% in the visible region.

作者隋成华刘彬徐天宁鄢波魏高尧

机构地区 Department of Applied Physics

出处《Optoelectronics Letters》 EI 2012年第3期205-208,共4页 光电子快报（英文版）

基金 supported by the Foundation of Zhejiang Educational Committee (No.Z201018276)

关键词 ZnO缓冲层薄膜性能 AZO 铝浓度比例 X射线衍射测量霍尔迁移率载流子浓度 Aluminum Buffer layers Electron beams Hall mobility Quartz X ray diffraction Zinc oxide

分类号 TN304.055 [电子电信—物理电子学]

引文网络
相关文献

参考文献15

1S. Q. Zhao, Y. L. Zhou, Y. Z. Liu, K. Zhao, S. F. Wang, W. F. Xiang, Z. Liu, P. Han, Z. Zhang and Z. H. Chen, Appl. Surf. Sci. 253, 726 (2006).
2Z. Yang, D. C. Look and J. L. Liu, Appl. Phys. Lett. 94, 072101 (2009).
3M. N. Jung, J. E. Koo, S. J. Oh, B.W. Lee, W. J. Lee, S. H. Ha, Y. R. Cho and J. H. Chang, Appl. Phys. Lett. 94, 041906 (2009).
4H. F. Liu and Z. H. Wang, J. Optoelectron. Laser 22, 400 (2011). (in Chinese).
5L. N. Li, X. L. Chen, C. Liu, J. Sun, X. H. Geng and Y. Zhao, J. Optoelectron. Laser 21, 559 (2010). (in Chinese).
6L. J. Luo, W. Tao, X. Y. Hu, T. Xiao, B. J. Heng, W. Huang, H. Wang, H. W. Han, Q. K. Jiang, J. B. Wang and Y. W. Tang, J. Power Sources 196, 10518 (2011).
7A. E. Manouni, F. J. Manjón, M. Mollar, B. Marí, R. Gómez,M. C. López and J. R. Ramos-Barrado, Superlattices. Microstruct 39, 85 (2006).
8H. M. Suarez, A. Maldonado, M. D. L. Olvera, A. Reyes, R. C. Perez, G. T. Delgado and R. Asomoza, Appl. Surf. Sci. 193, 52 (2002).
9A. Suzuki, T. Matsushita, N. Wada, Y. Sakamoto and M. Okuda, J. Appl. Phys. 35, L56 (1996).
10M. Chen, Z. L. Pei, C. Sun and S. Wen, J. Vac. Sci. Technol. 19, 963 (2001).

同被引文献89

1张霞,张晓丹,边楠,杨瑞霞,赵颖.衬底温度对ZnO纳米结构的影响[J].光电子．激光,2009,20(2):200-203. 被引量：5
2华文玉,陈存礼.用挖补圆盘法检测金属与薄层、超薄半导体层的欧姆接触性能[J].电子学报,1997,25(8):33-36. 被引量：7
3Minami T. Transparent conducting oxide semiconductors for transparent electrodes [J]. Semiconductor Science and Technology, 2005,20(4) : 35-44.
4Fortunato E, Nunes P, Costa D, et al. Characterization of aluminium doped zinc oxide thin films deposited on poly- meric substrates[J]. Vacuum, 2002,64 : 233-236.
5Jeong W J,Kim S K,Park G C. Preparation and charac- teristic of ZnO thin film with high and low resistivity for an app!ication of solar cell[J]. Thin Solid Films, 2006,506- 507 : 180-183.
6Steinhauser J, Meyer D, Schwab M, et al. Humid environ- ment stability of low pressure chemical vapor deposited boron doped zinc oxide used as transparent electrodes in thin film silicon solar cells[J]. Thin Solid Films,2011,520 (1) :558-562.
7Nakada T, Ohkubo Y, Murakami N, et al. Transparent con- ducting boron-doped zinc oxide films deposited by DO- magnetron sputtering in B2 H6-Ar mixtures[J]. Jpn. J. Ap- pl. Phys. ,1995,34:3623-3627.
8Abduev A K,Akhmedov A K,Asvarov A S. The structural and electrical properties of Ga-doped ZnO and Ga, B-co- doped ZnO thin films:The effects of additional boron im- purity[J]. Solar Energy Materials and Solar Cells, 2007, 91 (4) : 258-260.
9Hagiwara Y, Nakada T, Kunioka A. Improved Jsc in CIGS thin film solar cells using a transparent conducting ZnO: B window layer [J]. Solar Energy Materials and Solar Cells, 2001,67(1-4) : 267-271.
10Lin S,Huang J,Li D.The effect of thickness on the 15rop- erties of Ti-doped ZnO films by simultaneous r. f. and d. c. magnetron sputtering[J]. Surface & Coatings Technol- ogy, 2005,190 : 372-377.

引证文献5

1化麒麟,杨雯,杨培志,付蕊,邓双.B掺杂ZnO纳米薄膜的结构和光学特性研究[J].光电子．激光,2013,24(6):1116-1119. 被引量：5
2袁兆林.基于ZnO纳米线阵列和P3HT的混合光电二极管特性[J].光电子．激光,2014,25(1):36-41. 被引量：5
3叶芸,蔡寿金,颜敏,陈填源,刘玉会,郭太良,林志贤.退火温度对AZO薄膜场发射性能的影响[J].光电子．激光,2014,25(1):101-106. 被引量：3
4邓叶,王晓东,朱彦旭,曹伟伟,刘飞飞,杜志娟,于宁.Ag/Au与n-ZnO的欧姆接触特性的研究[J].光电子．激光,2014,25(8):1511-1515. 被引量：1
5范建彬,胡跃辉,陈义川,胡克艳.缓冲层对溶胶凝胶制备ZnO∶Sn薄膜性能的影响[J].人工晶体学报,2016,45(2):558-562.

二级引证文献14

1陈敬超,彭平.2013年云南金属材料与加工年评[J].云南冶金,2014,43(2):71-84.
2何祖明,夏咏梅,唐斌,王青.酞菁染料ZnPc和Q-PbS复合敏化纳米晶ZnO薄膜电极的研究[J].光电子．激光,2014,25(8):1506-1510. 被引量：2
3自兴发,杨雯,杨培志,段良飞,张力元.RF磁控溅射制备N掺杂Cu_2O薄膜及光学特性研究[J].光电子．激光,2014,25(9):1727-1731. 被引量：8
4自兴发,杨雯,杨培志,邓双,彭柳军.溅射压强对ITO/Cu_2O复合膜结构和光学性能的影响[J].光电子．激光,2014,25(12):2310-2315. 被引量：1
5自兴发,叶青,刘瑞明,何永泰.氧氩流量比对RF溅射ZnO：Mg薄膜结构及光学性能的影响[J].光电子．激光,2015,26(5):883-888. 被引量：4
6纪伟伟,冯金晖,赵彦民,乔在祥.GaInP_2/Ge异质结外延材料特性分析[J].光电子．激光,2015,26(5):889-893. 被引量：3
7李健,文化锋,LI Ying-feng.多元T型阵列探测器原理与性能[J].光子学报,2015,44(11):42-48. 被引量：3
8何祖明,夏咏梅,江兴方,唐斌.CdS纳米晶敏化ZnO/Cu_2O异质结太阳能电池的研究[J].光电子．激光,2016,27(5):513-518. 被引量：2
9周媛,肖立娟,吴忆华,徐忠平,陈耀星,霍堡垒.缓冲层对AZO薄膜光电性能的影响[J].实验科学与技术,2016,14(3):36-40.
10贾琨,赵亚丽,谷建宇,马江将,李克训.烧结温度对碳纳米管场发射性能的影响[J].光电子．激光,2017,28(11):1191-1197. 被引量：1

1王丹红,赵小如,谢海燕,刘金铭,白晓军,陈长乐.ZnO缓冲层退火温度对TiO_2∶Eu/ZnO薄膜光致发光性能的影响[J].材料导报,2011,25(22):9-12.
2马李刚,马书懿,陈海霞,黄新丽.ZnO缓冲层上低温生长Al掺杂的ZnO薄膜[J].功能材料,2011,42(8):1516-1519. 被引量：2
3马书懿,马李刚,艾小倩,黄新丽.ZnO缓冲层厚度对Al掺杂ZnO薄膜性能的影响[J].西北师范大学学报（自然科学版）,2011,47(6):20-24. 被引量：3
4周爱萍,刘汉法,袁玉珍.氩气压强对直流磁控溅射法制备ZnO∶Nb透明导电薄膜性质的影响[J].真空科学与技术学报,2012,32(11):974-977. 被引量：3
5WU ChunXia,LU YouMing,SHEN DeZhen,FAN XiWu.Effect of Mg content on the structural and optical properties of Mg_xZn_(1-x)O alloys[J].Chinese Science Bulletin,2010,55(1):90-93. 被引量：1
6刘秀喜,林玉松,高大江.石英管铝杂质吸收效应的分析与研究[J].半导体技术,1990,6(1):41-44.
7厉江帆,姜宗福,黄春佳,贺慧勇,朱江峰.夫琅禾费衍射公式的一般形式[J].大学物理,2003,22(11):9-14. 被引量：7
8付伍君,孟祥钦,朱博,张遥,杨成韬.ZnO缓冲层和退火处理对MgO薄膜结构的影响[J].电子元件与材料,2012,31(11):43-45.
9耿爱辉,曹立华,马艳梅,崔启良,万春明.Experimental Observation of Phase Transition in Sb203 under High Pressure[J].Chinese Physics Letters,2016,33(9):112-115.
10唐可,王林军,黄健,徐闰,赖建明,王俊,闵嘉华,史伟民,夏义本.Preparation of ZnO Thin Films on Free-Standing Diamond Substrates[J].Plasma Science and Technology,2009,11(5):587-591.

Optoelectronics Letters

2012年第3期

浏览历史

内容加载中请稍等...

Effects of the ZnO buffer layer and Al proportion on AZO film properties 被引量：5

参考文献15

同被引文献89

引证文献5

二级引证文献14

相关作者

相关机构

相关主题

浏览历史