NC-TiO2颗粒性质对有机/无机太阳能电池性能的影响

IF 0.9 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Ovonic Research Pub Date : 2023-10-01 DOI:10.15251/jor.2023.195.587
H. Al-Dmour, D.M. Taylor
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引用次数: 0

摘要

本文研究了纳米晶二氧化钛(ncTiO2)薄膜的性能对基于有机材料/ncTiO2多层结构的太阳能电池性能的影响。在不同的环境条件下,使用x射线衍射、原子力显微镜(AFM)和源测量单元(SMU)对其进行了研究。A、B两批太阳能电池的短路电流Jsc从0.03 mA/cm2提高到0.22 mA/cm2,功率转换效率η从0.01%提高到0.09%。这是由于A批nc-TiO2的颗粒尺寸为25 nm,高度为100 nm,而B批nc-TiO2薄膜的颗粒高度为40 nm,尺寸为19 nm。这些特性导致B批太阳能电池体区和界面的电阻和缺陷增加,影响了太阳能电池电荷产生的机理过程。
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Effect of properties of NC-TiO2 grains on the performance of organic/inorganic solar cells
This work studies the influence of the properties of nanocrystalline -titanium dioxide (ncTiO2) films on the performance of solar cells based on the Organic materials/ncTiO2 multilayer structure. That was investigated using X-ray diffraction, Atomic force microscopy (AFM), and Source-Measure Unit(SMU) under different ambient conditions. The device produced from batch A exhibit better performance compared to the device produced from batch B. The short circuit current, Jsc, increases from 0.03 mA/cm2 to 0.22 mA/cm2 , and the power conversion efficiency, η, from 0.01% to 0.09% in comparison between batches A and B solar cells. That is attributed to the grains of batch A nc-TiO2 having a size of 25 nm and a height of 100 nm, while particles of batch B nc-TiO2 film have a height of 40 nm and a size of 19 nm. These features cause to increase in the resistance and defects throughout the bulk region and interfaces of Batch B solar cells and impact the mechanism processes of charge generation of solar cells.
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来源期刊
Journal of Ovonic Research
Journal of Ovonic Research MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED
CiteScore
1.90
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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