Ba2M(C3N3O3)(2) (M = Mg, Ca): potential UV birefringent materials with strengthened optical anisotropy originating from the (C3N3O3)(3-) group

Li Zhuang; Liang Fei; Guo Yangwu; Lin Zheshuai; Yao Jiyong; Zhang Guochun; Yin Wenlong; Wu Yicheng; Chen Chuangtian

首页> 外文期刊>Journal of Materials Chemistry, C. materials for optical and electronic devices >Ba2M(C3N3O3)(2) (M = Mg, Ca): potential UV birefringent materials with strengthened optical anisotropy originating from the (C3N3O3)(3-) group

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Ba2M(C3N3O3)(2) (M = Mg, Ca): potential UV birefringent materials with strengthened optical anisotropy originating from the (C3N3O3)(3-) group

机译：Ba2M（C3N3O3）（2）（M = Mg，CA）：潜在的UV双折射材料，具有强化来自（C3N3O3）（3-）组的光学各向异性

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Demands for UV birefringent materials are growing dramatically owing to the rapid development of ultraviolet technology. Here, a new family of UV birefringent materials, Ba2Mg(C3N3O3)(2) (BMCY) and Ba2Ca(C3N3O3)(2) (BCCY), have been successfully discovered. It is the first time that the excellent birefringent properties of cyanurates have been studied. These materials exhibit an extremely large birefringence (n = 0.728-0.351 and 0.771-0.346 from 230 nm to 800 nm for BMCY and BCCY, respectively), much larger than that of the commercial UV birefringent crystal -BaB2O4 (-BBO) (n = 0.12@532 nm). Our study indicates that the impressive optical properties of BMCY and BCCY stem from the strengthened optical anisotropy of the planar (C3N3O3)(3-) group compared with the isoelectronic (B3O6)(3-) group. Besides, its congruent-melting properties make it feasible to grow a bulk crystal by the Bridgman-Stockbarger technique. The extraordinary properties of BMCY and BCCY may shed light on a new path to explore birefringent materials for practical application.

机译：由于紫外线技术的快速发展，对紫外线双折射材料的需求在显着发展。这里，已成功发现了一种新的UV双折射材料，Ba2mg（C3N 3 O 3）（2）（2）（BMCy）和Ba 2 Cl（2）（Bccy）。研究了第一次已经研究过氰化物的优异双折射性质。这些材料分别表现出极大的双折射（N = 0.728-0.351和0.771-0.346，分别为BMCY和BCCY的230nm至800nm），比商业UV双射流晶体-Bab2O4（-BBO）的比例大得多（n = 0.12@532 nm）。我们的研究表明，与等电子（B3O6）（3-）组相比，BMCY和BCCY茎的令人印象深刻的光学各向异性（C3N3O3）（3-）组的光学各向异性。此外，其一致熔化的属性使得通过Bridgman-Stockbrorger技术繁殖散装晶体即可成为可行的。 BMCY和BCCY的非凡性质可以在新的道路上阐明光线，以探索实际应用的双折射材料。

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来源
《Journal of Materials Chemistry, C. materials for optical and electronic devices》 |2018年第47期|共9页
作者
Li Zhuang; Liang Fei; Guo Yangwu; Lin Zheshuai; Yao Jiyong; Zhang Guochun; Yin Wenlong; Wu Yicheng; Chen Chuangtian;
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Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

China Acad Engn Phys Inst Chem Mat Mianyang 621900 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

Chinese Acad Sci Tech Inst Phys &

Chem Ctr Crystal Res &

Dev Key Lab Funct Crystals &

Laser Technol Beijing 100190 Peoples R China;

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中图分类物理化学（理论化学）、化学物理学;
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1. Ba2M(C3N3O3)(2) (M = Mg, Ca): potential UV birefringent materials with strengthened optical anisotropy originating from the (C3N3O3)(3-) group [J] . Li Zhuang, Liang Fei, Guo Yangwu, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2018,第47期

机译：Ba2M（C3N3O3）（2）（M = Mg，CA）：潜在的UV双折射材料，具有强化来自（C3N3O3）（3-）组的光学各向异性
2. RE(H2C3N3O3)(2)center dot(OH)center dot xH(2)O (RE = La, Y and Gd): potential UV birefringent materials with strong optical anisotropy originating from the (H2C3N3O3)(-) group [J] . Hao Xia, Luo Min, Lin Chensheng, Dalton transactions: An international journal of inorganic chemistry . 2019,第32期

机译：Re（H2C3N3O3）（2）中心点（OH）中心点XH（2）O（Re = La，Y和Gd）：潜在的UV双折射材料，具有强光学各向异性的源自（H2C3N3O3）（ - ）组
3. Noncentrosymmetric Cubic Cyanurate K6Cd3(C3N3O3)(4) Containing Isolated Planar pi-Conjugated (C3N3O3)(3-) Groups [J] . Xia Mingjun, Zhou Molin, Liang Fei, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2018,第1期

机译：含有分离的平面Pi-缀合（C3N3O3）（3-）基团的非胞多乳多氰脲酸酯K6CD3（C3N3O3）（4）
4. A theoretical framework for the analysis of optical anisotropy in birefringent biological tissues with polarization-sensitive optical coherence tomography [C] . Deepa K. Kasaragod, Zenghai Lu, James Jacobs, Optical coherence tomography and coherence techniques V . 2011

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5. Optical, magnetic, and electronic anisotropies in low-dimensional materials [D] . Exarhos, Annemarie Louise. 2015

机译：低维材料中的光学，磁和电子各向异性
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7. Ba2M(C3N3O3)2 (M = Sr, Pb): Band Engineering from p Interaction via Homovalent Substitution in Metal Cyanurates Containing Planar Conjugated Groups [O] . -1

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8. UV Curable Epoxy-Based Second Order Nonlinear Optical Materials; Synthesis andCharacterization [R] . Jeng, R. J., Chen, Y. M., Mandal, B. K., 1992

机译：紫外光固化环氧基二阶非线性光学材料;合成与表征

Ba2M(C3N3O3)(2) (M = Mg, Ca): potential UV birefringent materials with strengthened optical anisotropy originating from the (C3N3O3)(3-) group

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