通过氧阴离子聚合在共价碲酸钼中实现巨光学各向异性

Giant Optical Anisotropy in a Covalent Molybdenum Tellurite via Oxyanion Polymerization.

作者信息

Wu Tianhui, Jiang Xingxing, Duanmu Kaining, Wu Chao, Lin Zheshuai, Huang Zhipeng, Humphrey Mark G, Zhang Chi

机构信息

China-Australia Joint Research Center for Functional Molecular Materials, School of Materials Science and Engineering, Ocean University of China, Qingdao, 266404, China.

State Key Laboratory of Metastable Materials Science and Technology, Hebei Key Laboratory of Applied Chemistry, Yanshan University, Qinhuangdao, 066004, China.

出版信息

Adv Sci (Weinh). 2024 Mar;11(12):e2306670. doi: 10.1002/advs.202306670. Epub 2024 Jan 30.

DOI:10.1002/advs.202306670

PMID:38288532

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10966567/

Abstract

Large birefringence is a crucial but hard-to-achieve optical parameter that is a necessity for birefringent crystals in practical applications involving modulation of the polarization of light in modern opto-electronic areas. Herein, an oxyanion polymerization strategy that involves the combination of two different types of second-order Jahn-Teller distorted units is employed to realize giant anisotropy in a covalent molybdenum tellurite. Mo(HO)TeO (MTO) exhibits a record birefringence value for an inorganic UV-transparent oxide crystalline material of 0.528 @ 546 nm, which is also significantly larger than those of all commercial birefringent crystals. MTO has a UV absorption edge of 366 nm and displays a strong powder second-harmonic generation response of 5.4 times that of KHPO. The dominant roles of the condensed polytellurite oxyanions [TeO] in combination with the [MoO] polyhedra in achieving the giant birefringence in MTO are clarified by structural analysis and first-principles calculations. The results suggest that polymerization of polarizability-anisotropic oxyanions may unlock the promise of birefringent crystals with exceptional birefringence.

摘要

大双折射是一个关键但难以实现的光学参数，在现代光电子领域涉及光偏振调制的实际应用中，它是双折射晶体的必要条件。在此，采用一种氧阴离子聚合策略，该策略涉及两种不同类型的二阶 Jahn-Teller 畸变单元的组合，以在共价碲酸钼中实现巨大的各向异性。Mo(HO)TeO（MTO）对于无机紫外透明氧化物晶体材料，在 546 nm 处表现出创纪录的双折射值 0.528，这也显著大于所有商业双折射晶体的双折射值。MTO 的紫外吸收边缘为 366 nm，并显示出强烈的粉末二次谐波产生响应，是 KHPO 的 5.4 倍。通过结构分析和第一性原理计算，阐明了缩聚多碲酸根氧阴离子[TeO]与[MoO]多面体在实现 MTO 中巨大双折射方面的主导作用。结果表明，极化率各向异性氧阴离子的聚合可能会开启具有优异双折射的双折射晶体的前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1600/10966567/b2d4f0313e9d/ADVS-11-2306670-g004.jpg

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通过氧阴离子聚合在共价碲酸钼中实现巨光学各向异性

Giant Optical Anisotropy in a Covalent Molybdenum Tellurite via Oxyanion Polymerization.

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