Monday, September 26, 2022

Wafer scale microwire (TMW) solar cell with 21.1% efficiency using NCD ALD tool (Lucida D200)

[PV Magazine] Korean scientists have built a wafer-scale radial junction solar cell with tapered microwires and a surface passivation layer made of aluminum oxide. The device showed the highest power conversion efficiency among the previously reported microwire solar cells.


Crystalline silicon TMW solar cells are considered a potential alternative to conventional solar cells as these devices require thinner silicon wafers instead of the industry standard 160 µm thick wafers. “This could reduce manufacturing capital expenditure by 48% and module cost by 28%,” the Korean group claims.



Crystalline silicon TMW solar cells are considered a potential alternative to conventional solar cells as they require thinner silicon wafers instead of the industry standard 160 µm thick wafers. Image: Kangwon National University


A 10 nm-thick Al2O3 passivation layer was deposited on the front side of the wafer using ALD (Lucida D200, NCD) as reported in the publication below.

Choi, D., Hwang, I., Lee, Y., Lee, M., Um, H. D., & Seo, K. (2022). Wafer‐Scale Radial Junction Solar Cells with 21.1% Efficiency Using c‐Si Microwires. Advanced Functional Materials, 2208377.

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