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Researchers create flexible monocrystalline silicon solar cells

Researchers create flexible monocrystalline silicon solar cells
Foldable wafers a, SEM images of a textured c-Si wafer. The sharp pyramids in the marginal region were efficiently removed by an acid solution. b, Load–vertical displacement (F–D) curves of 140-μm textured c-Si wafers, in which the marginal regions were blunted in 10 vol% HF:90 vol% HNO3 solution for 0, 15 and 30 s. c, Textured c-Si wafers (60 μm) with pyramids on the surface. Their bending radius (Rb) at the cracking moment is plotted as a function of the blunting time in 10 vol% HF:90 vol% HNO3 solution. For comparison, the Rb values of 60-μm textured and quasiplanar c-Si wafers are shown. We also calculated the theoretical Rb of a 60-μm c-Si wafer as Rb = Ed/2σ, where E, d and σ are the modulus of elasticity, wafer thickness and tensile yield strength, respectively. Inset, 60-μm textured wafer of size 15.6 cm × 15.6 cm, in which the marginal region was blunted for 90 s in the acid solution. Credit: Nature (2023). DOI: 10.1038/s41586-023-05921-z

A large team of technologists affiliated with multiple institutions in China, working with two colleagues from Germany and another two from Saudi Arabia, has found a way to create flexible monocrystalline silicon solar cells. In their study, reported in the journal Nature, the group developed and tested a new process. The editors at Nature have also published a Research briefing in the same journal issue, outlining the work by the team on this new effort.

Solar cells have been around for more than a half-century, providing electricity for a variety of clean energy applications. But to date, almost all of them have involved the use of flat, rigid solar cells, making them suitable for use in a limited number of applications. For many years, scientists, and end users have waited for the development of flexible solar panels as efficient and durable as those that are rigid. In this new effort, the research team reports a way to create such a product.

The team began by running simulations of ideas to see if any might pan out. They came up with two techniques to treat the semiconductor materials used to make : the first was a wet chemical process, while the second was a dry, plasma-based process.

In real world testing, they proved that they could be used to create thin flexible panels—unfortunately, both suffered from excess reflectivity. Microscopic analysis showed that the problem was due to microscopic cracking between pyramid-shaped bumps that were created during processing on the surface of the panels. The team then found a way to soften the the bumps and channels that formed between the edges, where cracks formed. Further testing showed that cracks still formed, but the panel never broke, which allowed the cell to bend and remain usable.

Resulting devices made using the bendable cells were as efficient and durable as non-bendable cells. The research team also found that the cells could be easily mass produced. And because they are far lighter than traditional , they have many more applications.

More information: Wenzhu Liu et al, Flexible solar cells based on foldable silicon wafers with blunted edges, Nature (2023). DOI: 10.1038/s41586-023-05921-z

Flexible solar cells made with crystalline silicon, Nature (2023). DOI: 10.1038/d41586-023-01357-7

Journal information: Nature

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Citation: Researchers create flexible monocrystalline silicon solar cells (2023, May 25) retrieved 21 July 2024 from
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