无机―有机杂化材料由于兼具无机组分的性能优势和有机材料的结构特点而受到重视。以高核金属簇为次级构筑单元的无机―有机杂化材料与单金属离子结点基材料相比,因其无机构筑基元有利于引入块体材料的物理性质而更具魅力;另一方面,低维金属氧卤化物因在磁阻挫及各向异性电导等方面可能表现出特殊性质而具有重要研 Inorganic-organic hybrid materials are valued because of the combination of the performance advantages of inorganic components and the structural characteristics of organic materials. Inorganic-organic hybrid materials with high-core metal clusters as secondary building units are more attractive than inorganic single-metal ion-based base materials due to their inorganic building blocks that facilitate the physical properties of the bulk material introduced. Another In the aspect of low-dimensional metal oxyhalides, which have important properties that may show special properties in terms of magnetic resistance and anisotropy conductance