Studying the effect of copper on the p-ZnTe/n-AgCuInSe2/p-Si for thin films solar cell applications

IF 1.2 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Chalcogenide Letters Pub Date : 2023-02-23 DOI:10.15251/cl.2023.202.91
R. H. Athab, B. H. Hussein
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Abstract

A thin film of AgInSe2 and Ag1-xCuxInSe2 as well as n-Ag1-xCuxInSe2 /p-Si heterojunction with different Cu ratios (0, 0.1, 0.2) has been successfully fabricated by thermal evaporation method as absorbent layer with thickness about 700 nm and ZnTe as window layer with thickness about 100 nm. We made a multi-layer of p-ZnTe/n-AgCuInSe2/p-Si structures, In the present work, the conversion efficiency (η) increased when added the Cu and when used p-ZnTe as a window layer (WL) the bandgap energy of the direct transition decreases from 1.75 eV (Cu=0.0) to 1.48 eV (Cu=0.2 nm) and the bandgap energy for ZnTe=2.35 eV. The measurements of the electrical properties for prepared films showed that the D.C electrical conductivity (σd.c) increased with increasing Cu content for AgCuInSe2 thin films. So the electrical conductivity changed from 1 (Ω.cm)-1 to 29.96 (Ω.cm)-1 when x changed from 0.0 to 0.2. The prepared thin films have two activation energies (Ea1 & Ea2) in the temperature ranges of (300-393) K and (303-473) K. The C-V measurements revealed that all prepared heterojunctions were of the abrupt type and the junction capacitance reduced while the width of depletion region and the built-in potential increased with increasing the Cooper content. The current-voltage characteristics under dark condition of AgCuInSe2 heterojunctions, the current-voltage measurements under illumination showed that the performance of heterojunction solar cell improved with increasing Cu content. The result indicated that the prepared solar cell with 0.2 Ag content exhibited the highest efficiency (η = 1.68%) compared to other prepared solar cells.
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铜对薄膜太阳能电池用p-ZnTe/n-AgCuInSe2/p-Si的影响研究
采用热蒸发法成功地制备了AgInSe2和Ag1-xCuxInSe2以及不同Cu比(0,0.1,0.2)的n-Ag1-xCluxInSe2/p-Si异质结薄膜作为吸收层,厚度约为700nm,ZnTe作为窗口层,厚度为100nm。我们制备了p-ZnTe/n-AgCuInSe2/p-Si多层结构。在本工作中,当添加Cu时,转换效率(η)增加,当使用p-ZnTe作为窗口层(WL)时,直接跃迁的带隙能量从1.75eV(Cu=0.0)降低到1.48eV(Cu=0.2nm),ZnTe的带隙能为2.35eV。对所制备的薄膜的电学性能的测量表明,AgCuInSe2薄膜的直流电导率(σD.C)随着Cu含量的增加而增加。因此,当x从0.0变为0.2时,电导率从1(Ω.cm)-1变为29.96(Ω.cn)-1。所制备的薄膜在(300-393)K和(303-473)K的温度范围内具有两个激活能(Ea1和Ea2)。C-V测量表明,所有制备的异质结都是突变型的,结电容减小,而耗尽区的宽度和内建电势随着库珀含量的增加而增加。AgCuInSe2异质结在黑暗条件下的电流-电压特性和在光照下的电流电压测量表明,异质结太阳能电池的性能随着Cu含量的增加而提高。结果表明,与其他制备的太阳能电池相比,0.2 Ag含量的太阳能电池表现出最高的效率(η=1.68%)。
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来源期刊
Chalcogenide Letters
Chalcogenide Letters MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED
CiteScore
1.80
自引率
20.00%
发文量
86
审稿时长
1 months
期刊介绍: Chalcogenide Letters (CHL) has the aim to publish rapidly papers in chalcogenide field of research and appears with twelve issues per year. The journal is open to letters, short communications and breakings news inserted as Short Notes, in the field of chalcogenide materials either amorphous or crystalline. Short papers in structure, properties and applications, as well as those covering special properties in nano-structured chalcogenides are admitted.
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