铁电性
材料科学
二次谐波产生
钙钛矿(结构)
偶极子
相变
拉曼光谱
四方晶系
相(物质)
凝聚态物理
堆积
亚稳态
极化(电化学)
极地的
磁滞
结构稳定性
八面体
化学物理
锗
反铁电性
混合功能
光电子学
结晶学
电介质
离子键合
热电性
多铁性
纳米技术
铋铁氧体
表面二次谐波产生
作者
Zhu Guo,Ding‐Chong Han,Xian‐Jiang Song,Hui‐Peng Lv,Zeyu Deng,Chao Wang,Guangtong Yuan,Yuxin Liu,Jiangyu Li,Min Luo,Wei‐Xiong Zhang,Han‐Yue Zhang,Lingling Mao
出处
期刊:Aggregate
[Wiley]
日期:2025-12-15
卷期号:7 (1)
摘要
ABSTRACT Confinement effect, by strengthening interactions between structural components, provides an effective strategy for precisely regulating functional units, which is critical for properties associated with microscopic accumulation effects, such as second harmonic generation (SHG) and ferroelectricity. Here, we propose a molecular dipole management strategy through confinement effect to enhance the SHG and ferroelectricity properties in a new hybrid germanium perovskite system. Utilizing the cyclohexylammonium (Cy) cation, we successfully synthesize three polar phases, including one‐dimensional (1D) hexagonal (Cy)GeI 3 , a step‐like two‐dimensional (2D) (Cy) 4 Ge 3 I 10 phase, and a 2D (CyF) 2 GeI 4 phase (CyF = 4,4‐difluorocyclohexanammonium). All three phases exhibit photoresponses, characteristic of semiconductors. The metastable 1D (Cy)GeI 3 phase has the highest local dipole moment (LDM) of 14.07 Debye along the c ‐axis, resulting in a strong SHG response, and a high octahedral distortion parameter ( D i = 0.10). The step‐like 2D (Cy) 4 Ge 3 I 10 phase exhibits ferroelectric properties, where the remanent polarization of 0.34 µC/cm 2 has been confirmed by PFM and P‐E hysteresis loop measurements. To achieve both high phase stability and SHG intensity, we introduce a fluorine group into the organic cation, forming strong C─H···F─C hydrogen bonds that align polar units uniformly, increasing D i to 0.11. The 2D (CyF) 2 GeI 4 phase achieves a high SHG of 4 × KH 2 PO 4 . Furthermore, its phase transition temperature also increases by 88 K compared to the (Cy) 4 Ge 3 I 10 phase. Raman spectra and DFT calculations further reveal intensified confinement effect in the (CyF) 2 GeI 4 phases, consistent with its stronger structural rigidity. Our work provides comprehensive perspective and design strategies for tuning and optimizing hybrid perovskite‐based nonlinear optical materials.
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