This study successfully demonstrated the deposition and characterization of Barium Copper Selenide (BaCuSe) thin films using the Chemical Bath Deposition (CBD) technique. The research highlighted the significant role of deposition parameters-such as pH temperature precursor concentration and annealing conditions-in influencing the structural optical and electronic properties of the films. BaCuSe thin films exhibited promising characteristics including high transmittance in the visible to near-infrared (Vis-NIR) range strong UV absorption and tunable optical conductivity making them suitable for optoelectronic applications. Their potential in photovoltaic cells transparent conductors photodetectors and protective coatings underscores their versatility in next-generation device applications. Furthermore compared to other chalcogenide materials BaCuSe stands out for its environmentally friendly composition higher bandgap for UV absorption and superior transparency in the Vis-NIR region. Despite these advantages challenges remain in optimizing deposition techniques improving film uniformity and enhancing long-term stability.