Henan Key Laboratory of Polyoxometalate Chemistry, College of Chemistry and Chemical Engineering, Henan University, Kaifeng, Henan 475004, China.
Dalton Trans. 2022 Dec 6;51(47):18090-18098. doi: 10.1039/d2dt02664c.
Two three-dimensional frameworks based on the {PMo} unit, H(4,4'-bipy)[Fe(PO)(HO)Na][Fe(HO)][(MoO)(HPO)(PO)(OH)]·5HO (4,4'-bipy = 4,4'-bipyridine) (1) and H(CHN)[Fe(PO)(HO)Na][Fe(MoO(HPO)(PO)(OH))]·6HO (2) were successfully synthesized by varying the solvent. The extended structures of the two compounds were formed by transition metal Fe(II) ions bridging the {PMo}-based tetrameric clusters around [NaFe(PO)] ( = 6 (1), or = 4 (2)) core. The 4,4'-bipy molecules and generated methyl viologen cations as templates induce the formation of two three-dimensional structures, an 8-connected bcu topology framework for 1 and a 4-connected 2-fold interpenetrating diamond-like topological network for 2, respectively. Additionally, multiform hydrogen bonds are found in the framework and also play an important role in stabilizing the structure. The proton conduction mechanism of the two compounds can be mainly classified as the Grotthuss mechanism; the proton conductivity values are 1.06 × 10 S cm for 1 and 3.13 × 10 S cm for 2 at 75 °C under 98% relative humidity. The visible-light photocatalytic activity was evaluated by photocatalytic decomposition of Cr(VI) and MB dye, and the removal ratios can reach 95.6% (1) and 82% (2) for Cr(VI), and 98% (1) and 99% (2) for MB.
两种基于{PMo}单元的三维框架,H(4,4'-bipy)[Fe(PO)(HO)Na][Fe(HO)][(MoO)(HPO)(PO)(OH)]·5HO(4,4'-bipy = 4,4'-联吡啶)(1)和 H(CHN)[Fe(PO)(HO)Na][Fe(MoO(HPO)(PO)(OH))]·6HO(2)通过改变溶剂成功合成。两种化合物的扩展结构由过渡金属 Fe(II)离子桥接围绕[NaFe(PO)]( = 6(1),或 = 4(2))核心的{PMo}基四聚体簇形成。4,4'-bipy 分子和 生成的甲紫阳离子作为模板,分别诱导了 1 的二维 8 连接 bcu 拓扑骨架和 2 的四连接 2 倍互穿类金刚石拓扑网络的形成。此外,在骨架中发现了多种氢键,它们在稳定结构方面也起着重要作用。两种化合物的质子传导机制主要可以归类为 Grotthuss 机制;在 75°C、相对湿度为 98%的条件下,质子电导率值分别为 1.06×10 S cm 用于 1 和 3.13×10 S cm 用于 2。通过光催化分解 Cr(VI)和 MB 染料评价了可见光光催化活性,去除率分别达到 95.6%(1)和 82%(2)用于 Cr(VI),98%(1)和 99%(2)用于 MB。
