Porphyrin and Phthalocyanines-Based Solar Cells: Fundamental Mechanisms and Recent Advances

Oyebanji M. Opeyemi, H. Louis, Chinanso I. Opara, O. O. Funmilayo, T. Magu
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引用次数: 9

Abstract

A remarkable source of renewable energy is the Dye-­sensitized solar cells (DSCs). However, the major limitation of power conversion efficiency (PCE) of devices is their inability to produce electricity using photons from the near­infrared (NIR) spectral region. Some Metal-free organic sensitizers make use of strong electron donating or withdrawing moieties to tune the optical band gap to allow the absorption of lower energy wavelengths in charge transfer systems while porphyrins and phthalocyanines compounds are used to shift the Soret and Q bands toward lower energy absorption. Various molecules are been synthesized to improve and increase the power conversion efficiency of the compounds. This study discusses the structure of these compounds, working principles and their derivatives as recent advances been carried out to improve the power efficiencies of the compounds.
卟啉和酞菁基太阳能电池:基本机制和最新进展
染料敏化太阳能电池(dsc)是一种引人注目的可再生能源。然而,器件功率转换效率(PCE)的主要限制是它们不能利用近红外(NIR)光谱区域的光子产生电能。一些无金属有机敏化剂利用强电子给或抽离部分来调节光学带隙,以允许在电荷转移系统中吸收较低能量波长,而卟啉和酞菁化合物则用于将Soret和Q带转向较低能量吸收。合成了各种分子来改善和提高化合物的功率转换效率。本研究讨论了这些化合物的结构,工作原理及其衍生物的最新进展,以提高化合物的功率效率。
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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