卤化物
材料科学
纳米技术
光电子学
工程物理
无机化学
物理
化学
作者
Maryam Ghasemi,Pelin Karsili,Anamika Mishra,Mohammad Reza Golobostanfard,Jovana V. Milić
标识
DOI:10.1002/aenm.202502693
摘要
Abstract Metal halide perovskites have become the leading semiconductors for new‐generation optoelectronics. However, they are primarily based on toxic lead components, which pose environmental concerns. To address this critical limitation, there is an effort to design alternative lead‐free halide perovskite materials. One of the emerging approaches has involved the use of layered (2D) halide double perovskite (LDP) materials incorporating tailored organic spacers within the lead‐free perovskite framework based on alternative monovalent (M I ) and trivalent (M III ) metal cations, such as Ag, Bi, Cu, In, and others. The interactions within the assemblies of these hybrid organic–inorganic structures define the resulting properties. The role of molecular engineering in the development of LDPs and their optoelectronic characteristics is reviewed from the perspective of molecular design, synthesis, and functionality. Their versatility and methods to synthesize LDPs are discussed, as well as emerging applications, revealing challenges, and opportunities for their utility in more sustainable perovskite optoelectronics and beyond.
科研通智能强力驱动
Strongly Powered by AbleSci AI