（英）磁控溅射制备纳米晶GZO/CdS双层膜及GZO/CdS/p-Si异质结光伏器件的研究

doi:10.11972/j.issn.1001-9014.2019.01.008

首页 > 过刊浏览>2019年第38卷第1期 >44-49. DOI:10.11972/j.issn.1001-9014.2019.01.008

（英）磁控溅射制备纳米晶GZO/CdS双层膜及GZO/CdS/p-Si异质结光伏器件的研究
DOI:
                        10.11972/j.issn.1001-9014.2019.01.008
                    
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作者单位:1.东华大学 应用物理系;2.上海大学 分析测试中心;3.东华大学物理系;4.东华大学;5.广西大学 资源环境与材料学院
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基金项目:军委装备部“十三五”武器装备预先研究领域基金“石墨烯材料在电池中的应用基础技术” (编号：6140721040412)

Preparation of nanocrystalline GZO/CdS bilayer films using magnetron sputtering and GZO/CdS/p-Si heterojunction photovoltaic device

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Affiliation:

1.Department of Applied Physics,Donghua University, Renmin Rd North,Songjiang District,Shanghai;2.Department for Solar Energy,Institute for Energy Technology,NO- Kjeller,Norway;3.Department of Applied Physics, Donghua University;4.Donghua University;5.School of Resoures, Environment and Materials, Guangxi University

Fund Project:

The fund of PLA General Armament Department“The 13th Five-year” Weapons and Equipments Pre-research Field Fundation “Basic application technology of graphene materials in batteries”(6140721040412)

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摘要:

本文中,采用磁控溅射制备Ga掺杂ZnO (GZO)/CdS双层膜在p型晶硅衬底上以形成GZO/CdS/p-Si异质结器件。纳米晶GZO/CdS双层膜的微结构、光学及电学特性,通过XRD、SEM、XPS、紫外-可见光分光光度计和霍尔效应测试系统表征。GZO/CdS/p-Si异质结J-V曲线显示良好的整流特性。在±3V时,整流比IF/IR(IF和IR分别表示正向和反向电流)已达到21。结果表明纳米晶GZO/CdS/p-Si异质结具有好的二极管特性,在反向偏压下获得高光电流密度。纳米晶GZO/CdS/p-Si异质结显示明显的光伏特性。由于CdS晶格常数在GZO和晶Si之间,它能作为一个介于GZO和晶Si之间的缓冲层,能有效地减少GZO和p-Si之间的界面态。因此,我们获得了GZO/CdS/p-Si异质结明显光伏特性。

Abstract:

In this work, Ga doped ZnO (GZO)/CdS bilayer films were prepared on p-Si substrate by magnetron sputtering to form GZO/CdS/p-Si heterojunction device. The structural, optical and electrical properies of the nanocrystalline GZO/CdS bilayer films were studied by XRD, SEM, XPS, UV-VIS spectrophotometer and Hall effect measurement. The J-V curve of GZO/CdS/p-Si heterojunction device shows good rectifying behavior. And the value of IF/IR (IF and IR stand for forward and reverse current, respectively) at ±3V is found to be as high as 21. The results indicate that the nanocrystalline GZO/CdS/p-Si heterojunction possesses good diode characteristic. High photocurrent density is obtained under a reverse bias. The nanocrystalline GZO/CdS/p-Si heterojunction device exhibits clear photovoltaic effect. Because the lattice constant of CdS is between GZO and Si, it can be used for a buffer layer between GZO and Si, to effectively reduce the interface states between GZO and p-Si. Therefore, we observed the clear photovoltaic effect of GZO/CdS/p-Si heterojunction.

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何波,徐静,邢怀中,宁欢颇,王春瑞,莫观孔,沈晓明,张晓东.（英）磁控溅射制备纳米晶GZO/CdS双层膜及GZO/CdS/p-Si异质结光伏器件的研究[J].红外与毫米波学报,2019,38(1):44~49]. HE Bo, XU Jing, XING Huai-Zhong, NING Huan-Po, WANG Chun-Rui, MO Guan-Kong, SHEN Xiao-Ming, ZHANG Xiao-Dong. Preparation of nanocrystalline GZO/CdS bilayer films using magnetron sputtering and GZO/CdS/p-Si heterojunction photovoltaic device[J]. J. Infrared Millim. Waves,2019,38(1):44~49.]

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收稿日期:2018-05-02
最后修改日期:2018-05-27
录用日期:2018-05-31
在线发布日期: 2019-03-12
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