High-efficiency colored BIPV panels
Researchers in China have reported a colorization strategy for solar based on photonic glass. They created solar panels that took on blue, green, and purple hues, while only dropping the efficiency of power generation from 22.6% to 21.5%.
Colored PV modules are considered ideal for facade applications, as they are more visible than rooftops. However, their widespread application has been held back by the lack of a PV colorization technology that has a low impact on power conversion efficiency (PCE) and is simultaneously mass-producible at a low cost.
To address this challenge, researchers at Shanghai Jiao Tong University have created solar panels that take on colorful hues while producing energy nearly as efficiently as traditional ones. They implemented a colorization strategy based on photonic glass, which was made of a thin, disorderly layer of dielectric microscopic zinc sulfide spheres.
By a fast spray coating process, they showed that the photonic glass layer could be easily deposited on silicon solar cells, enabling them to have structural colors. Through varying microsphere sizes, solar cells with different colors were achieved, showing low PCE loss compared to normal black cells.
Using this approach, the researchers created solar panels that took on blue, green, and purple hues while only dropping the efficiency of power generation from 22.6% to 21.5%. Moreover, the long-term stability was subsequently verified by aging tests including an outdoor exposure for 10 days and a damp-heat test for 1000 h and the mass producibility is demonstrated by presenting a colored PV panel with an output power over 108 W.
The researchers now plan to explore ways to make the colors more saturated, as well as methods to achieve a wider range of colors. They reported their findings in “High-Efficiency, Mass-Producible, and Colored Solar Photovoltaics Enabled by Self-Assembled Photonic Glass” which was recently published in ACS Publications.
Source
The report was written by the editorial staff of “pv-magazine” (Marija Maisch) 2022 – the article may not be redistributed without permission!