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Target Therapy for Buried Interface Enables Stable Perovskite Solar Cells with 25.05% Efficiency. | LitMetric

AI Article Synopsis

  • The buried interface in perovskite solar cells (PSCs) is crucial for their efficiency and stability, but studying it is difficult because it’s not directly visible.
  • A new strategy uses formamidine oxalate (FOA) to enhance the SnO/perovskite buried interface by reducing defects and improving carrier dynamics.
  • This method boosts the efficiency of PSCs from 22.40% to 25.05% and increases their stability, offering a promising approach to optimize buried interfaces for better solar cell performance.

Article Abstract

The buried interface in perovskite solar cells (PSCs) is pivotal for achieving high efficiency and stability. However, it is challenging to study and optimize the buried interface due to its non-exposed feature. Here, a facile and effective strategy is developed to modify the SnO /perovskite buried interface by passivating the buried defects in perovskite and modulating carrier dynamics via incorporating formamidine oxalate (FOA) in SnO nanoparticles. Both formamidinium and oxalate ions show a longitudinal gradient distribution in the SnO layer, mainly accumulating at the SnO /perovskite buried interface, which enables high-quality upper perovskite films, minimized defects, superior interface contacts, and matched energy levels between perovskite and SnO . Significantly, FOA can simultaneously reduce the oxygen vacancies and tin interstitial defects on the SnO surface and the FA /Pb associated defects at the perovskite buried interface. Consequently, the FOA treatment significantly improves the efficiency of the PSCs from 22.40% to 25.05% and their storage- and photo-stability. This method provides an effective target therapy of buried interface in PSCs to achieve very high efficiency and stability.

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Source
http://dx.doi.org/10.1002/adma.202303665DOI Listing

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