“…Even though both perovskite [4] and antimony chalcogenides have emerged as captivating materials for photovoltaic applications in the last 5 years [5], however, perovskite solar cells suffer from moisture instability which is hindering their upscaling and commercialization [6,7]. The V-VI semiconductor compounds, namely Sb 2 S 3 and Sb 2 Se 3 exhibit remarkable optical and electrical characteristics such as high absorption coefficient (>10 5 cm −1 ), the ability to tune their bandgap within the range of 1.04-1.67 eV, intrinsic p-type conductivity, attired carrier mobility (9-15 cm 2 /V.s), and desirable attributes such as moisture stability [8,9]. Additionally, these materials offer other significant advantages, including their abundance on earth, simplified structural composition, minimal presence of secondary phases, or smaller melting points [10].…”