Advanced Materials, Engineered for Excellence

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CELLIDIUM LAB

Established during advanced material era, we develop high-performance electron and hole conductors for solar cells, LEDs, photocatalysts, and gas sensors. Our solutions also include transparent conductive coatings for displays and solar cells. Custom material formulations are available for specialized applications.

Both the reverse and forward scans demonstrate exceptionally high short-circuit current densities (Jsc = 25.30 mA/cm²), reflecting strong light absorption and excellent charge generation. The open-circuit voltages (Voc) are also high (over 1.1 V), which indicates minimal energy losses and efficient voltage generation.

The device reaches a peak power conversion efficiency (PCE) of 23.15% in the reverse scan and 21.66% in the forward scan, both of which are outstanding values that place this cell among the top-performing technologies in the field. Additionally, the fill factors are commendable (80.79% and 77.05%), indicative of good electrical quality and minimal resistive losses.

The J–V curve following highlights the impressive performance of the solar cell device using SnO2 10% in H2O colloidals from Cellidium Lab. This solar cell showcases excellent efficiency, high current output, and promising stability, making it a leading candidate for next-generation photovoltaic applications.

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