聚氧乙烯钒酸盐和离子液体衍生的无机-有机杂化晶体有望成为导电材料

IF 2.6 4区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemNanoMat Pub Date : 2024-05-27 DOI:10.1002/cnma.202400188

Yoshiki Kiyota, Seiji Ono, Dr. Kaito Sasaki, Nanako Tamai, Hironori Sugimoto, Prof. Dr. Yosuke Okamura, Prof. Dr. Shinichi Koguchi, Prof. Dr. Masashi Higuchi, Prof. Dr. Yu Nagase, Prof. Dr. Naoki Shinyashiki, Prof. Dr. Sayaka Uchida, Prof. Dr. Takeru Ito

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引用次数: 0

摘要

通过使用具有咪唑和甲基丙烯酰基的离子液体阳离子（标记为 MAImC1），成功获得了含有碱土金属（二价）阳离子的导电性聚氧化钒酸盐无机-有机杂化晶体。获得了两种含有癸钒酸（[V10O28]6-，V10）阴离子的晶体，分别为[MAImC1]2Ca2[V10O28]-16H2O-2C2H5OH（MAImC1-Ca-V10）和[MAImC1]2Mg2[V10O28]-18H2O-2C2H5OH（MAImC1-Mg-V10）。二价阳离子的连接模式各不相同：在 MAImC1-Ca-V10 中，Ca2+ 阳离子与 V10 连接形成{[Ca(H2O)5]2V10O28]}2-阴离子，而在 MAImC1-Mg-V10 中则存在离散的 [V10O28]6- 和水合 [Mg(H2O)6]2+。在 353 K（80 °C）完全加湿条件下，MAImC1-Ca-V10 和 MAImC1-Mg-V10 的电导率分别高达 3.0 × 10-4 S cm-1 和 3.3 × 10-3 S cm-1。水合条件下较高的导电率表明质子是一种导电载体。MAImC1-Mg-V10 较高的电导率可能来自晶格中更有效的氢键网络。

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Inorganic-Organic Hybrid Crystals Derived from Polyoxovanadate and Ionic-Liquid toward Promising Conductive Materials

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Inorganic-Organic Hybrid Crystals Derived from Polyoxovanadate and Ionic-Liquid toward Promising Conductive Materials

Conductive polyoxovanadate inorganic-organic hybrid crystals comprising alkaline earth metal (divalent) cations were successfully obtained with the use of an ionic-liquid cation having imidazolium and methacryloyl moieties (denoted as MAImC₁). Two types of crystals containing decavanadate ([V₁₀O₂₈]⁶⁻, V₁₀) anion were obtained as [MAImC₁]₂Ca₂[V₁₀O₂₈] ⋅ 16H₂O ⋅ 2 C₂H₅OH (MAImC₁−Ca−V₁₀) and [MAImC₁]₂Mg₂[V₁₀O₂₈] ⋅ 18H₂O ⋅ 2 C₂H₅OH (MAImC₁−Mg−V₁₀). Connection modes of the divalent cations were different: Ca²⁺ cations were connected to V₁₀ to form a {[Ca(H₂O)₅]₂V₁₀O₂₈]}²⁻ anion in MAImC₁−Ca−V₁₀, while a discrete [V₁₀O₂₈]⁶⁻ and hydrated [Mg(H₂O)₆]²⁺ were present in MAImC₁−Mg−V₁₀. Conductivities under a fully humidified condition at 353 K (80 °C) were high values of 3.0×10⁻⁴ S cm⁻¹ for MAImC₁−Ca−V₁₀ and 3.3×10⁻³ S cm⁻¹ for MAImC₁−Mg−V₁₀, respectively. The higher conductivity under hydrated conditions suggests proton as a conductive carrier. The better conductivity of MAImC₁−Mg−V₁₀ is plausibly derived from the more effective hydrogen-bonded network in the crystal lattice.

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来源期刊

ChemNanoMat Energy-Energy Engineering and Power Technology

CiteScore

6.10

自引率

2.60%

发文量

236

期刊介绍： ChemNanoMat is a new journal published in close cooperation with the teams of Angewandte Chemie and Advanced Materials, and is the new sister journal to Chemistry—An Asian Journal.