碘酸盐
八面体
发色团
非线性光学
二次谐波产生
材料科学
光学透明度
激光器
非线性光学
红外线的
光电子学
光学
结晶学
光化学
化学
晶体结构
非线性系统
物理
冶金
量子力学
碘
作者
Chao Wu,Lin Lin,Xingxing Jiang,Zheshuai Lin,Zhipeng Huang,Mark G. Humphrey,P. Shiv Halasyamani,Chi Zhang
标识
DOI:10.1021/acs.chemmater.9b03214
摘要
The discovery of nonlinear optical (NLO) materials for generating coherent mid-infrared (mid-IR) light is critically important in developing laser technologies. However, all of the commercialized mid-IR crystals thus far possess problems that have hindered their application. We report herein a function-directing structural design strategy to afford a new type of mid-IR NLO material, using fluorinated 5d0-transition metal octahedra to construct a polar noncentrosymmetric material K5(W3O9F4)(IO3). The Λ-shaped [W3O12F4]10– polyanion, consisting of distorted octahedra, not only guides the alignment of the [IO3]− units but also serves as a new kind of NLO-active chromophore in the mid-IR, with K5(W3O9F4)(IO3) possessing an optimal combination of large second-harmonic generation response (11 × KH2PO4@1064 nm and 0.5 × AgGaS2@2100 nm), wide visible and mid-IR transparency (0.32–10.5 μm), and a giant laser damage threshold (95 × AgGaS2). The important role of the [W3O12F4]10– polyanion in improving the NLO properties and extending the IR transparency region has been clarified through first-principles calculations. Our results suggest that the incorporation of fluorinated 5d0-transition metal chromophores into iodate materials may afford a viable route to novel promising mid-IR NLO materials with exceptional NLO functions.
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