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Researchers shed light on processing perovksite cells

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Studies could help define the next steps toward the market readiness of perovskite-based solar cells

New research by an international team of scientists may pave the way for developing more efficient halide perovskite solar cells. The results were published in the journal Joule.

"This is about material design," says Aram Amassian, co-corresponding author of a paper on the work and an associate professor of materials science and engineering at North Carolina State University.

"If you want to intentionally engineer halide perovskite solar cells that have the desirable characteristics you're looking for, you have to understand not only how the material behaves under different conditions, but why," Amassian says. "This work gives us a fuller understanding of this class of materials, and that understanding will illuminate our work moving forward."

Halide perovskites are salts, with positively and negatively charged components that come together to form a neutral compound. And they have several characteristics that make them desirable for manufacturing high-efficiency solar cells. They can be dissolved into a liquid and then form high-quality crystals at low temperatures, which is attractive from a manufacturing standpoint. In addition, they are easy to repair and can tolerate defects in the material without seeing a big drop-off in their semiconductor properties.

The researchers from NC State, KAUST, the Australian National University, and Cornell University delved into a key phenomenon related to halide perovskite solar cell synthesis and processing. It involves the fact that adding caesium and rubidium into the synthesis process of mixed halide perovskite compounds makes the resulting solar cell more chemically homogeneous - which is desirable, since this makes the material's characteristics more uniform throughout the cell. But until now, no one knew why.

To investigate the issue, the researchers used time-resolved, X-ray diagnostics to capture and track changes in the crystalline compounds formed throughout the synthesis process. The measurements were performed at the Cornell High Energy Synchrotron Source.

"These studies are critical in defining the next steps toward the market readiness of perovskite-based solar cells," says Stefaan De Wolf, co-corresponding author of the paper and an associate professor of materials science and engineering at the King Abdullah University of Science and Technology (KAUST).

"What we found is that some of the precursors, or ingredients, want to form several compounds other than the one we want, which can cluster key elements irregularly throughout the material," Amassian says. "That was something we didn't know before.

"We also found that introducing caesium and rubidium into the process at the same time effectively suppresses the formation of those other compounds, facilitating the formation of the desired, homogeneous halide perovskite compound that is used to make high performance solar cells."

Next steps for the work include translating these lessons from laboratory-based spin-coating to large area manufacturing platforms which will enable the high throughput fabrication of perovskite solar cells.

'Multi-cation Synergy Suppresses Phase Segregation in Mixed-Halide Perovskites' by Hoang X. Dang et al; Joule 2019.05.016

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