Non-perovskite ionic metal halide hybrids: emerging platforms for high-efficiency circularly polarized luminescence
摘要
Metal halide hybrids have emerged as a highly promising class of optoelectronic materials owing to their rich chemical and electronic diversity, high luminescence efficiency, and tunable photophysical properties. Incorporating chirality into these systems imparts pronounced circularly polarized luminescence (CPL) activity, creating new opportunities for advanced smart optoelectronic and spintronic applications. Although numerous reviews have been dedicated to CPL-active perovskites, their non-perovskite ionic counterparts have yet to be systematically and comprehensively reviewed. Given the rapid advancements in this burgeoning field, such a work is both timely and crucial to chart its future course. This review summarizes recent progress in non-perovskite ionic metal halide hybrids exhibiting CPL emission, highlighting four aspects: (1) the intrinsic correlations among different characterization techniques; (2) the strategic advantages of these materials for CPL applications; (3) methodologies for enhancing their CPL performance; (4) the prerequisites and mechanisms underlying CPL generation in achiral metal halide hybrids. Finally, we discuss their emerging applications in light-emitting devices, information encryption, anti-counterfeiting technologies, and scintillators, and provide perspectives on the remaining challenges and future directions in this rapidly evolving field.