CuFeS2 nanocrystals for sustainable photocatalysis: a comprehensive review

Copper iron sulfide (CuFeS₂) nanocrystals represent an emerging, earth-abundant, visible-near-infrared-responsive photocatalyst platform for solar-to-chemical energy conversion systems, owing to their broadband absorption, compositional tunability, operational stability, and low materials cost. This review systematically summarizes recent advances in synthesis strategies for CuFeS₂-based materials, highlights their distinctive optoelectronic properties, and evaluates their performance across diverse photocatalytic reactions. Critical challenges, including the enhancement of photocatalytic efficiency, morphology control, and surface/interface engineering are discussed in detail. Furthermore, future research directions are outlined, including scalable production, interfacial optimization, and integration with advanced heterojunctions for photoelectronic devices. Collectively, this work provides a valuable knowledge base for the rational design of new photocatalysts while fostering innovation in multifunctional catalytic systems and next-generation energy devices.