Structural, optical and electrical properties of sulphide based heterojunction thin film

IF 1 4区 材料科学
E. Obot, C. Augustine, R. Chikwenze, S. Amadi, P. Okpani, P. Kalu, B. J. Robert, O. Nwoke, A.E. Igweoke, R. O. Okoro
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引用次数: 0

Abstract

This contribution presents structural, optical and electrical properties of PbS/CdS thin films at different annealing temperatures. The XRD analysis reveal the existence of three different crystalline phases, i.e., the beta-CdS, hawleyite-CdS and greenockite-alpha-CdS phases within the CdS-shell of PbS/CdS core shell thin film. The dislocation density and microstrain decreased with annealing temperatures indicating a decrease in lattice imperfections and formation of high quality film and it can be attributed to the increase in grain size of the film with increase in annealing temperatures. Optical studies placed the band gaps at 1.25eV-1.75eV. About the same magnitude were found from electrical conductivity test. The samples exhibited high conductivity with increasing annealing temperatures which resulted to the bumping of electrons from the valence band to the conduction band. The high absorbance suggest that the film could be coated on collectors to enhance solar energy collection. The achieved band gaps placed the PbS/CdS fabricated with the presented method as a good material for solar photovoltaic applications.
硫化物基异质结薄膜的结构、光学和电学性质
这一贡献介绍了PbS/CdS薄膜在不同退火温度下的结构、光学和电学性能。XRD分析表明,在PbS/CdS核壳薄膜的CdS壳内存在三种不同的晶相,即β-CdS、hawleyite CdS和greenockiteα-CdS相。位错密度和微应变随着退火温度的升高而降低,这表明晶格缺陷的减少和高质量膜的形成,这可归因于膜的晶粒尺寸随着退火温度升高而增加。光学研究将带隙放置在1.25eV-1.75eV。从电导率测试中发现了大约相同的幅度。随着退火温度的升高,样品表现出高导电性,这导致电子从价带碰撞到导带。高吸收率表明该膜可以涂覆在收集器上以增强太阳能收集。所获得的带隙使用所提出的方法制造的PbS/CdS成为太阳能光伏应用的良好材料。
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来源期刊
Journal of Ovonic Research
Journal of Ovonic Research Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
1.60
自引率
20.00%
发文量
77
期刊介绍: Journal of Ovonic Research (JOR) appears with six issues per year and is open to the reviews, papers, short communications and breakings news inserted as Short Notes, in the field of ovonic (mainly chalcogenide) materials for memories, smart materials based on ovonic materials (combinations of various elements including chalcogenides), materials with nano-structures based on various alloys, as well as semiconducting materials and alloys based on amorphous silicon, germanium, carbon in their various nanostructured forms, either simple or doped/alloyed with hydrogen, fluorine, chlorine and other elements of high interest for applications in electronics and optoelectronics. Papers on minerals with possible applications in electronics and optoelectronics are encouraged.
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