This versatile iridium complex is widely used in photocatalysis due to its efficient light absorption and energy transfer capabilities, particularly in artificial photosynthesis processes that convert light energy into chemical energy. It is also employed in organic light-emitting diodes (OLEDs) and other photoelectronic devices for its excellent phosphorescent properties, serving as an efficient emitter material to produce high-quality, energy-efficient displays and lighting systems. Its unique structure enables emission color tuning, offering versatility in optoelectronics applications. Furthermore, it is researched for advanced materials in perovskite solar cells to improve light-to-electricity conversion efficiency, and in sensors where its light-emitting characteristics enhance performance and sensitivity.