Analysis of Nanoporous Semiconductor Film Thickness Effect on Short Circuit Current Density of β-Carotene Dye based DSSC: Theoretical and Experimental Approach

JPSE (Journal of Physical Science and Engineering) Pub Date : 2020-06-15 DOI:10.17977/um024v4i12019p001

S. Solehudin, M. Diantoro, A. Hidayat

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引用次数: 3

Abstract

Dye-sensitized solar cells (DSSC) made of TiO 2 have received increasing attention since O’Regan and Gratzel published their work in Nature in 1991 [1]. Some studies have been conducted to determine the effect of the TiO 2 electrode thickness on the DSSC performance. Nevertheless, the effect of the electrode thickness on the J–V characteristics, especially the short circuit current density ( J sc ), has not been adequately addressed. Therefore, in this investigation, parametric analyses were conducted to study the DSSC electrode thickness effect on J sc . Diffusion model was used to derive the equation of nanoporous semiconductor film thickness ( d ) dependence on J sc . TiO 2 paste was prepared using same method as Ref. [2]. The cells I-V curve were characterized using a computerized digital multi-meter (Keithley 2400) with a variable load. The cells short circuit current ( J sc ) data gotten from the I-V characterization were plotted as the function of the thickness of TiO 2 films. The result of the data plot was then compared and fitted with the theoretical modelling result. It is apparent that the DSSC performance largely depends on the TiO2 film thickness. The results was also showed that the diffusion model provided good approximation to describe the dependence of J sc on the film thickness of DSSC. DOI: http://dx.doi.org/10.17977/um024v4i12019p001

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纳米多孔半导体薄膜厚度对β-胡萝卜素染料DSSC短路电流密度影响的理论与实验分析

自O 'Regan和Gratzel于1991年在Nature杂志上发表他们的研究成果以来，由二氧化钛制成的染料敏化太阳能电池(DSSC)越来越受到关注[1]。研究了二氧化钛电极厚度对DSSC性能的影响。然而，电极厚度对J - v特性的影响，特别是短路电流密度(jsc)，尚未得到充分的解决。因此，本研究采用参数分析方法研究DSSC电极厚度对jsc的影响。利用扩散模型推导出纳米多孔半导体膜厚度(d)随jsc变化的方程。制备tio2膏体的方法与文献[2]相同。细胞的I-V曲线用可变负载的计算机数字万用表(Keithley 2400)进行表征。通过I-V表征得到的电池短路电流(jsc)数据绘制为tio2薄膜厚度的函数图。然后将数据图的结果与理论建模结果进行比较和拟合。可见，DSSC的性能在很大程度上取决于TiO2薄膜的厚度。结果还表明，扩散模型可以很好地近似描述jsc对DSSC膜厚的依赖关系。DOI: http://dx.doi.org/10.17977/um024v4i12019p001

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JPSE (Journal of Physical Science and Engineering)

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