Centrosymmetric (NH4)2SbCl(SO4)2 and Non-centrosymmetric (NH4)SbCl2(SO4): Synergistic Effect of Hydrogen-Bonding Interactions and Lone-Pair Cations on the Framework Structures and Macroscopic Centricities

He, Fangfang; Wang, Qian; Hu, Cuifang; Wen, He; Luo, Xueying; Huang, Ling; Gao, Daojiang; Bi, Jian; Wang, Xin; Zou, Guohong

doi:10.1021/acs.cgd.8b01102

Cited by 74 publications

(44 citation statements)

References 64 publications

(71 reference statements)

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“…Recently, (NH 4 )SbCl 2 (SO 4 ) was reported having a moderate SHG response (1.7×KDP), and the cooperation of SbCl 2 O 2 and SO 4 polyhedrons makes a major contribution to the SHG effect. However, it is still unstable in the heating process (weight loss begins at 163 °C) and susceptive to humidity …”

Section: Figurementioning

confidence: 99%

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

et al. 2019

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A novel niobium oxyiodate sulfate, Nb2O3(IO3)2 (SO4), was fabricated by a rational multi‐component design under moderate hydrothermal conditions. This multi‐component design is inspired by an interesting niobium oxysulfate reaction, which opens a new door for synthetic method to effectively introduce refractory metals such as Nb into crystal structures by hydrothermal synthesis. Nb2O3(IO3)2(SO4) features a cube‐like topological structure with a large phase‐matching second harmonic generation (SHG) response (6×KDP), a wide transparency window (0.38–8 μm), and a high laser damage threshold (LDT) (20×AgGaS2). It has the highest thermostability (stable up to 580 °C under air) among reported non‐centrosymmetric (NCS) iodates and sulfates and is stable in water and even concentrated H2SO4. Furthermore, Nb2O3(IO3)2(SO4) is a unique nonlinear optical (NLO) material among iodates and sulfates, because its SHG effect is mainly caused by the MO6 units rather than the IO3 or SO4 units, which is demonstrated by density functional theory (DFT) calculations.

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Section: Figurementioning

confidence: 99%

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

et al. 2019

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“…Hydrogen bonding (H-bonding) between water and host materials has proven to be important for the structure and function of the latter. − Strong H-bonds can lead to the formation of extended networks that modulate fundamental processes, including hydration processes, chemical synthesis and reactions, , heat dissipation, , and macroscopic structural formations. ,− Under confinement, H-bonded networks are disrupted due to physical constraints and host–water interactions. , A variety of porous materials, such as carbon nanotubes, − zeolites, silica pores and channels, , and other materials , have been used as model systems to determine the physical properties of water in confinement. These model systems highlight the fact that the properties of the confining environment, whether hydrophobic or hydrophilic, influence H-bonding with the host.…”

Section: Introductionmentioning

confidence: 99%

Simulation Meets Experiment: Unraveling the Properties of Water in Metal–Organic Frameworks through Vibrational Spectroscopy

et al. 2021

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In nanoporous materials, guest-host interactions affect the properties and function of both adsorbent and adsorbate molecules. Due to their structural and chemical diversity, metal-organic frameworks (MOFs), a common class of nanoporous materials, have been shown to be able to efficiently and, often, selectively adsorb various types of guest molecules. In this study, we characterize the structure and dynamics of water confined in ZIF-90. Through the integration of experimental and computational infrared (IR) spectroscopy, we probe the structure of heavy water (D 2 O) adsorbed in the pores, disentangling the fundamental framework-water and water-water interactions. The experimental IR spectrum of D 2 O in ZIF-90 displays a blue-shifted OD-stretch band compared to liquid D 2 O. The analysis of the IR spectra simulated at both classical and quantum levels indicates that the D 2 O molecules preferentially interact with the carbonyl groups of the framework and highlights the importance of including nuclear quantum effects and taking into account Fermi resonances for a correct interpretation of the OD-stretch band in terms of the underlying hydrogen-bonding motifs. Through a systematic comparison with the experimental spectra, we demonstrate that computational spectroscopy can be used to gain quantitative, molecular-level insights into framework-water interactions that determine the water adsorption capacity of MOFs as well as the spatial arrangements of the water molecules inside the MOF pores which, in turn, are key to the design of MOF-based materials for water harvesting.File list (2) download file view on ChemRxiv water_in_zif90.pdf (4.99 MiB) download file view on ChemRxiv supporting_information.pdf (4.44 MiB)

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“…K 2 Sb(P 2 O 7 )F displays a strong SHG response of about 4.0 times larger than that of KH 2 PO 4 (KDP), which is nearly 3.0 times that of KBBF. With the exception of a few lead phosphates and LiHgPO 4 , [27] this value is much larger than that of most of the emerging UV NLO phosphates, especially, pyrophosphates, e.g., Rb 2 Ba 3 (P 2 O 7 ) 2 (0.3×KDP), [28] RbNaMgP 2 O 7 (0.9×KDP), [29] K 4 Mg 4 (P 2 O 7 ) 3 (1.3×KDP) [22] etc., as well as antimony(III)‐based NLO materials such as K 2 SbF 3 SO 4 (0.1×KDP), [18c] Rb 2 Sb 2 F 6 SO 4 (0.3×KDP), [18d] (NH 4 )SbSO 4 Cl 2 (1.7×KDP) [18b] and CsSbF 2 SO 4 (3.0×KDP) [18a] …”

Section: Resultsmentioning

confidence: 99%

K₂Sb(P₂O₇)F: Cairo Pentagonal Layer with Bifunctional Genes Reveal Optical Performance

Deng¹,

Huang

Dong

et al. 2020

Angewandte Chemie

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Discovering new functional genes, designing perfect crystal structures, and developing high‐performance materials are the goals being pursued by scientists. Herein, the first antimony pyrophosphate, K2Sb(P2O7)F, possessing an optimal layered structure, is reported, where the perfect structural arrangement induces excellent optical properties. K2Sb(P2O7)F not only displays a sharply enhanced birefringence (0.157@546 nm) compared to the existing phosphate optical materials, but also exhibits a strong second‐harmonic generation response (4.0×KDP). Remarkably, a new bifunctional gene, the square‐pyramidal SbO4F group, was discovered, and a unique two‐dimensional arrangement of Cairo pentagonal tiling units was observed in inorganic compounds for the first time.

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Centrosymmetric (NH₄)₂SbCl(SO₄)₂ and Non-centrosymmetric (NH₄)SbCl₂(SO₄): Synergistic Effect of Hydrogen-Bonding Interactions and Lone-Pair Cations on the Framework Structures and Macroscopic Centricities

Cited by 74 publications

References 64 publications

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

Simulation Meets Experiment: Unraveling the Properties of Water in Metal–Organic Frameworks through Vibrational Spectroscopy

K₂Sb(P₂O₇)F: Cairo Pentagonal Layer with Bifunctional Genes Reveal Optical Performance

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Centrosymmetric (NH4)2SbCl(SO4)2 and Non-centrosymmetric (NH4)SbCl2(SO4): Synergistic Effect of Hydrogen-Bonding Interactions and Lone-Pair Cations on the Framework Structures and Macroscopic Centricities

Cited by 74 publications

References 64 publications

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

A Niobium Oxyiodate Sulfate with a Strong Second‐Harmonic‐Generation Response Built by Rational Multi‐Component Design

Simulation Meets Experiment: Unraveling the Properties of Water in Metal–Organic Frameworks through Vibrational Spectroscopy

K2Sb(P2O7)F: Cairo Pentagonal Layer with Bifunctional Genes Reveal Optical Performance

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Product

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Centrosymmetric (NH₄)₂SbCl(SO₄)₂ and Non-centrosymmetric (NH₄)SbCl₂(SO₄): Synergistic Effect of Hydrogen-Bonding Interactions and Lone-Pair Cations on the Framework Structures and Macroscopic Centricities

K₂Sb(P₂O₇)F: Cairo Pentagonal Layer with Bifunctional Genes Reveal Optical Performance