Microwave-Mediated Synthesis of Lead-Free Cesium Titanium Bromide Double Perovskite: A Sustainable Approach

Abstract: Theoretical studies have identified cesium titanium bromide (Cs2TiBr6), a vacancy-ordered double perovskite, as a promising lead-free and earth-abundant candidate to replace Pb-based perovskites in photovoltaics. Our research is focused on overcoming the limitations associated with the current Cs2TiBr6 syntheses, which often involve high-vacuum and high-temperature evaporation techniques, high-energy milling, or intricate multistep solution processes conducted under an inert atmosphere, constraints that hinder… Show more

“…Recent investigations suggest that controlling the aqueous solution can also enhance environmental stability. For instance, Julián-López et al induced the formation of highly crystalline Cs 2 TiBr 6 using microwave radiation in polar solvents, not only reducing energy costs associated with perovskite production but also imparting exceptional stability to the resulting Cs 2 TiBr 6 . Konstantatos et al further enhanced Cs 2 TiBr 6 perovskite stability by post-treating it with SnBr 4 , adjusting the amount and reaction conditions to achieve optimal stability.…”

Improving the Photoelectric Conversion Efficiency of Cs₂TiBr₆-Based Perovskite Solar Cells Using a Theoretical Simulation Method

“…Recent investigations suggest that controlling the aqueous solution can also enhance environmental stability. For instance, Julián-López et al induced the formation of highly crystalline Cs 2 TiBr 6 using microwave radiation in polar solvents, not only reducing energy costs associated with perovskite production but also imparting exceptional stability to the resulting Cs 2 TiBr 6 . Konstantatos et al further enhanced Cs 2 TiBr 6 perovskite stability by post-treating it with SnBr 4 , adjusting the amount and reaction conditions to achieve optimal stability.…”

Improving the Photoelectric Conversion Efficiency of Cs₂TiBr₆-Based Perovskite Solar Cells Using a Theoretical Simulation Method

“…Relatively little research has been done on vacancy-ordered perovskites for solar cells. Studies have shown that Cs 2 TiX 6 (X = Br and I) possesses multiple desirable attributes including good stability and high optical absorption coefficients in the visible light ranges. − More recently, Zhao et al and Reyes-Francis et al, respectively, pointed out the ease of synthesis and high power conversion efficiency (PCE) of Cs 2 TiX 6 . , The impact of large exciton binding energy in Cs 2 TiX 6 may potentially be mitigated through atomic substitution or by changing the dielectric environment of the insulating organic layer. − The aforementioned discussions suggest that Cs 2 TiX 6 holds the potential for use in solar cells. However, existing calculations and experiments have proven that both Cs 2 TiBr 6 and Cs 2 TiI 6 have some shortcomings that limit their further applications. , First, these two materials have quasi-direct bandgaps with indirect bandgaps between Γ (valence band maximum, VBM) and X (conduction band minimum, CBM), which are detrimental to their photovoltaic performance .…”

Intrinsic Defects of Vacancy-Ordered Perovskite Cs₂TiIBr₅ for Solar Cells