卤化物
材料科学
金属卤化物
激子
金属
光致发光
八面体
激发
结合能
紫外线
化学物理
光化学
结晶学
光电子学
无机化学
原子物理学
凝聚态物理
晶体结构
化学
物理
冶金
量子力学
作者
Haoran Lin,Chenkun Zhou,Jennifer Neu,Yan Zhou,Dan Han,Shiyou Chen,Michael Worku,Maya Chaaban,Sujin Lee,Ella Berkwits,Theo Siegrist,Mao‐Hua Du,Biwu Ma
标识
DOI:10.1002/adom.201801474
摘要
Abstract The family of molecular level low‐dimensional organic metal halide hybrids has expanded significantly over the last few years. Here a new type of 1D metal halide structure is reported, in which metal halide octahedra form a corrugated double‐chain structure via nonplanar edge‐sharing. This material with a chemical formula of C 5 H 16 N 2 Pb 2 Br 6 exhibits a broadband yellow emission under ultraviolet light excitation with a photoluminescence quantum efficiency of around 10%. The light‐yellow emission is considered to be attributed to self‐trapping excitons. Theoretical calculations show that the unique alignment of the octahedra leads to small band dispersion and large exciton binding energy. Together with previously reported 1D metal halide wires and tubes, this new bulk assembly of 1D metal halides suggests the potential to develop a library of bulk assemblies of metal halides with controlled structures and compositions.
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