Toward the Enhancement of Critical Performance for Deep-Ultraviolet Frequency-Doubling Crystals Utilizing Covalent Tetrahedra

Mutailipu, Miriding; Yang, Zhihua; Pan, Shilie

doi:10.1021/accountsmr.1c00028

“…It is regretted that the dangling bonds of O atoms are not effectively eliminated in most of above crystals, resulting in relatively small band gaps. However, this situation can be well‐improved by introducing the four‐coordinated non‐π‐conjugated groups to build three‐dimensional network, which leads to larger band gaps than those with only isolated π‐conjugated units [25–28] . This can be confirmed by the enlarged band gaps in these compounds with non‐π‐conjugated symmetrical tetrahedra.…”

Section: Introductionmentioning

confidence: 94%

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Xia

¹

,

Li

²

,

Mutailipu

³

et al. 2021

Self Cite

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The generated light can be tuned to cover almost the entire spectral range from deep‐ultraviolet to terahertz wavelengths by utilizing the nonlinear optical crystals with a simple frequency doubling process. Among them, the discovery of novel candidates for the production of deep‐ultraviolet light is by extension a great challenge toward realizing the vast potential. Actually, the availability for this process mainly depends on whether the critical performance can be well coexisted in one practical crystal. Herein, the first magnesium fluorooxoborate MgB5O7F3 was synthesized as a new competitive candidate for deep‐ultraviolet nonlinear optical application. It has a sufficiently large nonlinearity and a deep‐ultraviolet phase matching wavelength, indicating that it holds great potential for the production of coherent light below 200 nm. The critical performance enhancement of MgB5O7F3 when compared with its isomorphic phases was demonstrated and discussed. More importantly, we proposed that fluorooxoborate system with the general formula of MB5O7F3 (M=divalent metal) possesses stable fluorine terminated framework, which makes them tend to retain their crystallized space groups unchanged.

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“…The variety of the linkage modes of these FBBs leads to the flexible structure of borates which exhibit zero-dimensional (0D) isolated clusters, 1D chains, 2D layers, and 3D frameworks. 24–31 For compounds with 3D B–O anionic frameworks, a few of them own interesting independent interpenetrating 3D networks, such as BaB 8 O 13 , 35 Sr 2 B 16 O 26 , 36 LiNaB 8 O 13 , 37 etc .…”

Section: Introductionmentioning

confidence: 99%

Na₂SrB₁₆O₂₆: a new borate with independent interpenetrating B–O networks and deep-ultraviolet cutoff edge

Chen

¹

,

Zhang

²

,

Zhang

³

et al. 2022

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“…Faced with this, cooperative assembly of π‐conjugated and non‐π‐conjugated modules is a good choose to regulate the optical anisotropy, hyperpolarizability, band gap [25] . In the last few years, the previously reported deep‐UV NLO fluorooxoborates, including AB 4 O 6 F (A=NH 4 , Na, Rb, Cs; abbreviated as ABF series) and MB 5 O 7 F 3 (M=Ca, Sr; abbreviated as MBF series) have verified the feasibility of this strategy, which can be regarded as the results of assembling non‐π‐conjugated [BO 3 F] and π‐conjugated [BO 3 ]/[B 3 O 6 ] modules [31–44] .…”

Section: Introductionmentioning

confidence: 99%

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Xia

¹

,

Li

²

,

Mutailipu

³

et al. 2021

Self Cite

View full text Add to dashboard Cite

The generated light can be tuned to cover almost the entire spectral range from deep‐ultraviolet to terahertz wavelengths by utilizing the nonlinear optical crystals with a simple frequency doubling process. Among them, the discovery of novel candidates for the production of deep‐ultraviolet light is by extension a great challenge toward realizing the vast potential. Actually, the availability for this process mainly depends on whether the critical performance can be well coexisted in one practical crystal. Herein, the first magnesium fluorooxoborate MgB5O7F3 was synthesized as a new competitive candidate for deep‐ultraviolet nonlinear optical application. It has a sufficiently large nonlinearity and a deep‐ultraviolet phase matching wavelength, indicating that it holds great potential for the production of coherent light below 200 nm. The critical performance enhancement of MgB5O7F3 when compared with its isomorphic phases was demonstrated and discussed. More importantly, we proposed that fluorooxoborate system with the general formula of MB5O7F3 (M=divalent metal) possesses stable fluorine terminated framework, which makes them tend to retain their crystallized space groups unchanged.

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Toward the Enhancement of Critical Performance for Deep-Ultraviolet Frequency-Doubling Crystals Utilizing Covalent Tetrahedra

Cited by 106 publications

References 56 publications

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Na₂SrB₁₆O₂₆: a new borate with independent interpenetrating B–O networks and deep-ultraviolet cutoff edge

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

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Toward the Enhancement of Critical Performance for Deep-Ultraviolet Frequency-Doubling Crystals Utilizing Covalent Tetrahedra

Cited by 106 publications

References 56 publications

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Na2SrB16O26: a new borate with independent interpenetrating B–O networks and deep-ultraviolet cutoff edge

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

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Na₂SrB₁₆O₂₆: a new borate with independent interpenetrating B–O networks and deep-ultraviolet cutoff edge