Chemistry

Surface-confined protection stabilizes pre-annealing crystallization for ambient blade-coated perovskites

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Researchers developed a surface-confined protection method that stabilizes perovskite solar cell materials during the critical pre-annealing crystallization phase when using blade-coating techniques under ambient conditions. This approach addresses a major challenge in scaling up perovskite solar cell production by enabling high-quality film formation outside controlled atmosphere environments. The method prevents premature degradation and unwanted crystallization that typically occurs when perovskite precursors are exposed to ambient air and humidity during the coating process.


This advancement could significantly reduce manufacturing costs for perovskite solar cells by eliminating the need for expensive controlled-atmosphere facilities during production. The technique makes industrial-scale blade-coating of perovskite solar cells more feasible, potentially accelerating the commercialization of this promising renewable energy technology.


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Source: Surface-confined protection stabilizes pre-annealing crystallization for ambient blade-coated perovskites