Optical and Electrical Properties of Vacuum Evaporated Sexithiophene Thin Films

Journal of Pure Applied and Industrial Physics Pub Date : 2018-10-04 DOI:10.29055/jpaip/319

C. Manna, S. Florence, Hajer Adam, A. Aljabri

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Abstract

Optical and Electrical Properties of Vacuum Evaporated Sexithiophene Thin Films have been studied in the present work. The optical properties of Sexithiophene layers have been studied by absorption spectroscopy and fluorescence. From the optical studies, it has been observed that sexithiophene can be absorbed in the visible region and the electronic transitions have been occurred in the absorption spectra and fluorescence spectra. The weak fluorescence of 6T thin film would be an asset to the photovoltaic conversion of solar energy. The total conversion efficiency of the fabricated cells has been calculated as η = 0.7 10-2%. It is found that this very poor yield has been obtained mainly due to two factors. The first concerns the rate of photogeneration of free charges in the organic semiconductor since the excitons formed by light absorption of strong Frenkel excitons. The second is due to the small overlap of the absorption spectrum with the emission spectrum of the lamp. This manifest in the low lifetime of free carriers 4 3 μs   from compared to the transit time 187 μs which weakened due to the low carrier mobility.

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真空蒸发噻吩薄膜的光学和电学性质

本文研究了真空蒸发性感噻吩薄膜的光学和电学性质。用吸收光谱法和荧光光谱法研究了硫代噻吩层的光学性质。从光学研究中发现，硫代噻吩在可见光区被吸收，并且在吸收光谱和荧光光谱中都发生了电子跃迁。6T薄膜的弱荧光特性将为太阳能的光伏转换提供有利条件。计算所得电池的总转化效率为η = 0.7 ~ 2%。研究发现，这种极低的产量主要是由两个因素造成的。第一个问题是由于强弗伦克尔激子的光吸收而形成激子后，有机半导体中自由电荷的光生速率。第二是由于灯的吸收光谱与发射光谱重叠很小。这表现在自由载流子的寿命较低，为4.3 μs，而迁移时间为187 μs，迁移时间由于载流子迁移率低而减弱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Pure Applied and Industrial Physics

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