Development of efficient perovskite solar cells using a low-temperature liquid process

Abstract

Perovskites-photovoltaic cells are a type of photovoltaic cells which include a chemical compound having perovskite structure, most often a hybrid organic-inorganic lead or a tin halide, in its light-converting active layer. The efficiency of photovoltaic cells used in these materials is increasing constantly since the beginning of the new millennium. It went from 3.8% in 2009 [6] to 22.1% [7] in early 2016 [8].Up until today, this is the fastest development in the history of the photovoltaic history. To this day, some stability problems unfortunately still remain unsolved. However, this technology still exhibits a significant margin to improve performance and low production costs. This means that perovskite cells have become commercially attractive, and start-up companies already announce modules on the market by 2019. This study concluded that the addition of halogenated bidentate additives such as 1,8 Diiodooctane (DIO) not only influenced the performances of perovskite solar cells but also their stability over time. By fine elemental analysis, it was concluded that the addition of chlorine in the solution did not imply the substitution of iodide by chlorine in the structure. Chlorine is therefore believed to play a role in getting rid of the excess of methylamine, thus helping stabilizing the cell and enhancing its performance. As requested by the industry, this work demonstrated the feasibility of replacing the electron transport layer (ETL) of TiO2 by a materials obtained by liquid low-temperature process (<150°C)

    Similar works