自旋电子学
材料科学
光致发光
兴奋剂
钙钛矿(结构)
极化(电化学)
晶体结构
凝聚态物理
格子(音乐)
单晶
量子产额
光电子学
晶格常数
纳米技术
圆极化
激子
非线性光学
非线性系统
非线性光学
量子
半导体
铁磁性
作者
Jing Huang,Hualin Bi,Huitao Zhang,Jia Zhou,Jialin Zhang,Huanbo Wang,Jun Wang
标识
DOI:10.1021/acs.jpclett.5c02690
摘要
Chiral perovskites exhibit great potential in polarization optics and spintronics due to their excellent structural and electronic properties. This study uses (1 R,2 R )-DACH as the organic component to synthesize a novel 2D germanium-based chiral perovskite single crystal, (1 R,2 R )-DACHGeI 4 (where (1 R,2 R )-DACH is (1 R,2 R )-(−)-1,2-cyclohexanediamine). To address the impact of lattice defects in germanium-based perovskites on optical properties, a rare-earth Ce 3+ doping compensation strategy is adopted. Experiments show Ce 3+ doping enhances photoluminescence quantum yield and fluorescence lifetime, regulates spintronic states, replaces partial Ge 2+ to cause lattice distortion, changes the crystal space group from chiral P 2 1 2 1 2 to nonchiral Pba 2, and destroys the chiral structure. DFT calculations confirm these experimental results. This work provides a new approach to improving the nonlinear optical properties of 2D germanium-based perovskites and deepens the understanding of the intrinsic relationship between chiral perovskite structures and spintronic states.
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