How do you coat a perovskite film?

There are two main approaches to coating perovskites: the one-step and two-step procedures. In the one-step procedure, a perovskite film forms by coating a solution that contains all precursors; for example, MAI (l) + PbI 2 (l) → MAPbI 3 (s).

Can vapor-phase fluoride stabilize solar modules?

In this study, we report a scalable stabilization method using vapor-phase fluoride treatment, which achieves 18.1%-efficient solar modules (228 square centimeters) with accelerated aging–projected T80 lifetimes (time to 80% of efficiency remaining) of 43,000 ± 9000 hours under 1-sun illumination at 30°C.

Can crystalline silicon based photovoltaic modules be coated?

On the other hand, in standard crystalline silicon based photovoltaic modules is also usual to use coatings deposited on the cover glass, but with other purposes beyond protection, as enhancement of optical properties or soiling performance [ 25 ].

Does coating deposition affect photovoltaic performance?

Photovoltaic and aging performance were examined through the short-circuit current density values and colour change of the composite. Decrease in the initial photovoltaic performance of the modules was caused by the coating deposition.

Can vapor-phase fluoride exposure improve scalable stabilization of perovskite solar modules?

Vapor-phase fluoride exposure enables scalable stabilization of perovskite solar modules. Zhao et al. alleviated evaporation-driven concentration fluctuations during solution coating of stabilizing layers by exposing formamidinium lead iodide films to hydrogen fluoride vapor generated by heating ammonium fluoride in a sealed chamber.

How does UV radiation affect a photovoltaic module?

Concerning UV radiation exposure, the formation of chromophoric groups in the composite due to polymeric matrix chain scission makes the composite yellowish [ 21, 22 ], which affects the amount of light that reaches de photovoltaic cells and thus the module efficiency.