Visualize generating power without the sun. That is what dye sensitized solar cells are capable of. This third-generation solar cell can produce electricity under low light conditions. More significantly, it can do so utilizing indoor lighting.
However, the utilization of dye sensitized solar cells does not come without its own difficulties. Research in photovoltaic tech is ongoing to advance its relatively low effectiveness rate compared with silicon solar cells.
Nonetheless, the dye sensitized solar cell has already found its path into certain practical applications, and it can be the answer to power concerns in the future because of its several benefits.
What Is a Dye Sensitized Solar Cell?
The dye sensitized solar cell, also called as DSC or DSSC, is a separate kind of photovoltaic cell which can efficiently adapt natural and artificial visible light into electrical power.
This new class of progressive solar cell copycats the natural absorption of light power. Therefore, it works like an artificial photosynthesis micro machine.
First established in the 1991 by Grätzel and O’Regan, DSSCs have involved a lot of popularity over past few years due to their good photovoltaic performance in low-light situation, flexibility in terms of colors and look, comparatively easy fabrication procedures and their potential less price.
Browse detailed - Dye-Sensitized Solar Cells Market Revenue Estimation and Growth Forecast Report
Resistance To Heat
Other types of solar cells require some safety as ambient temperature increases. They heat up simply, and the internal temperature of the solar cell decreases effectiveness significantly. This can result in up to 20% of power efficiency loss.
In contrast, dye sensitized solar cells can function as proficiently at 148° F as at 76° F. This is because DSSCs are made of only a thin layer of plastic.