CIGS太阳能电池中的色彩工程：一种电光建模视角

Photovoltaic panels are typically black or dark blue, which can limit their integration into the surrounding environment. Enhancing their appearance through color modifications can promote broader adoption, particularly for building integrated applications. Optimizing the performance of colored Cu(In,Ga)Se2 (CIGS) cells requires a thorough understanding of how layer thickness influences both color hue and efficiency. We analyze colored CIGS solar cells using a self-consistent electro-optical simulation approach. Unlike previous studies that focus solely on optical properties, our approach integrates both optical and electrical modeling to provide a more accurate assessment of device performance. By accounting for light behavior, charge generation, recombination processes, and electrical transport, we analyze how variations in layer thickness influence both color and efficiency. In addition, we examine the effects of installation angle and lighting conditions on color perception and power output. This study offers deeper insights into the mechanisms governing colored CIGS solar cells, contributing to a more precise assessment of their practical implementation across different applications. A color–geometry–performance map is developed to evaluate whether the manufactured colored CIGS solar cells meet both aesthetic and performance criteria as well as to explain the observed behavior.