双折射
钒酸盐
材料科学
单独一对
硒酸盐
失真(音乐)
结晶学
晶体结构
各向异性
Crystal(编程语言)
单晶
层状结构
光电子学
纳米技术
超单元
超分子化学
光学
作者
Feng Qiuyuan,Jialong Wang,Qun Jing,Xiaoyu Dong,Shilie Pan
出处
期刊:Small
[Wiley]
日期:2025-12-26
卷期号:22 (9): e13021-e13021
标识
DOI:10.1002/smll.202513021
摘要
Layered or pseudo-layered crystalline structures are particularly prone to exhibiting pronounced birefringence effects due to their anisotropic nature. In this investigation, we developed a novel strategy for designing birefringent materials with 2D architectures by synergistically combining the structural diversity of V─O coordination groups with lone pair electron functional groups. Guided by this strategy, we successfully synthesized two compounds, LiV3Se2O12 and RbVSeO5. Remarkably, LiV3Se2O12 is grown into a centimeter-sized single crystal using a high-temperature solution method, which is analogous to the "one-pot" approach. This "one-pot" approach not only minimizes chemical waste but also simplifies the growth process, which offers a time-efficient and practical route for obtaining large-sized single crystals. Structurally, LiV3Se2O12 features 2D [V3Se2O12]∞ layers, which are constructed from triangular pyramidal [SeO3] groups and 1D [V3O13]∞ chains. To the best of our knowledge, LiV3Se2O12 exhibits the largest birefringence (experimental Δn = 0.45 at 546 nm) among vanadate and selenate systems, which also surpasses the commercial YVO4 crystal. This exceptional birefringence highlights the potential of LiV3Se2O12 as a promising candidate for future applications in birefringent materials.
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