V、In和Cu掺杂对p型ZnSe/Si异质结太阳能电池性能的影响

Q1 Economics, Econometrics and Finance Progress in Industrial Ecology Pub Date : 2019-04-25 DOI:10.1504/PIE.2019.10020850
B. H. Hussein, I. Khudayer, M. H. Mustafa, A. H. Shaban
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引用次数: 4

摘要

通过添加一些元素(V、In和Cu)作为杂质来增强ZnSe/Si异质结是主要目标,因为它们有助于制造可再生能源设备,如太阳能电池。本文用热蒸发法在真空度为10~5托的条件下制备了掺杂V、In和Cu的ZnSe薄膜。该薄膜具有吸收系数值高、带隙直接等优点,可应用于异质结太阳能电池。在玻璃和n型硅晶片衬底上制备的样品。这些薄膜在450K下退火1h。X射线衍射XRD结果表明,掺杂后的ZnSe薄膜具有择优取向(111)的多晶结构,并用原子力显微镜(AFM)观察了表面形貌。使用紫外可见光谱进行了光学研究,发现带隙能量随着掺杂而降低。霍尔测量表明,在ZnSe:Cu薄膜中,所有薄膜都是高载流子浓度(3.26×1017cm-3)的p型薄膜。从C-V测量中确定了内置电势,该测量揭示了所有异质结样品的突变结。根据纯ZnSe/Si太阳能电池和掺杂ZnSe/Si-太阳能电池的暗和亮I-V特性计算的转换效率。通过设计不稳定补偿中心形成的生长条件、掺杂对主要不同因素的影响(如开路电压、短路电流密度、填充因子、纯ZnSe和掺杂ZnSe的光伏转换效率),可以提高实现掺杂类型的机会。结果表明,ZnSe:Cu异质结太阳能电池具有较高的效率。
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Effect of V, In and Cu doping on properties of p-type ZnSe/Si heterojunction solar cell
The enhancement of ZnSe/Si Heterojunction by adding some elements (V, In and Cu) as impurities is the main goal because they contribute to the manufacturing of renewable energy equipment, such as solar cells. This paper describes the preparation of thin films ZnSe with V, In and Cu doped using thermal evaporation method with a vacuum of 10-5 Torr. The thin film was obtained from this work could be applied in heterojunction solar cell because of several advantages including high absorption coefficient value and direct band gap. The samples prepared on a glass and n-type Si wafer substrate. These films have been annealed for 1 h in 450 K. X-ray diffraction XRD results indicated that ZnSe thin film possesses poly-crystalline structure after doping with preferential orientation (111) and the atomic force microscopy (AFM) were used to examine the surface morphology. Optical studies were done using UV-Visible spectroscopy and the band gap energy was found to decrease with doping. Hall measurements showed that all the films are p-type with high carriers concentration (3.26 × 1017 cm-3) in ZnSe:Cu thin film. The built in potential was determined from the C-V measurements which revealed an abrupt junction for all heterojunction samples. The conversion efficiency calculated from dark and illuminated I-V characteristics of ZnSe/Si solar cell pure and doping. The chances for achieve type of doping can be improved by designing growth conditions that destabilise the formation of compensating centres, which is important for optical device applications, the effect of doping on main different factors such as open-circuit voltage, short-circuit current density, fill factor, the photovoltaic conversion efficiency of ZnSe pure and doped. The results reveal high efficiency for ZnSe:Cu heterojunction solar cell.
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来源期刊
Progress in Industrial Ecology
Progress in Industrial Ecology Economics, Econometrics and Finance-Economics, Econometrics and Finance (all)
CiteScore
1.10
自引率
0.00%
发文量
24
期刊介绍: PIE contributes to international research and practice in industrial ecology for sustainable development. PIE aims to establish channels of communication between academics, practitioners, business stakeholders and the government with an interdisciplinary and international approach to the challenges of corporate social responsibility and inter-organisational environmental management.
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