Entley W R, Girolami G S
Science. 1995 Apr 21;268(5209):397-400. doi: 10.1126/science.268.5209.397.
The molecular-based magnetic materials Cs(2)Mn(||)[V(||)(CN)(6)] (1) and (Et(4)N)(0.5)Mn(l.25)- [V(CN)(5)].2H(2)O (2) (where Et is ethyl) were prepared by the addition of manganese(II) triflate to aqueous solutions of the hexacyanovanadate(II) ion at 0 degrees C. Whereas 1 crystallizes in a face-centered cubic lattice, 2 crystallizes in a noncubic space group. The cesium salt (1) has features characteristic of a three-dimensional ferrimagnet with a Néel transition at 125 kelvin. The tetraethylammonium salt (2) also behaves as a three-dimensional ferrimagnet with a Néel temperature of 230 kelvin; only two other molecular magnets have higher magnetic ordering temperatures. Saturation magnetization measurements indicate that in both compounds the V(II) and high-spin Mn(II) centers are antiferromagnetically coupled. Both 1 and 2 exhibit hysteresis loops characteristic of soft magnets below their magnetic phase-transition temperatures. The high magnetic ordering temperatures of these cyano-bridged solids confirm that the incorporation of early transition elements into the lattice promotes stronger magnetic coupling by enhancing the backbonding into the cyanide pi* orbitals.
通过在0℃下将三氟甲磺酸锰添加到六氰合钒(II)酸根离子的水溶液中,制备了分子基磁性材料Cs₂Mn[V(CN)₆](1)和(Et₄N)₀.₅Mn₁.₂₅[V(CN)₅]·2H₂O(2)(其中Et为乙基)。1以面心立方晶格结晶,而2以非立方空间群结晶。铯盐(1)具有三维亚铁磁体的特征,在125开尔文时有奈尔转变。四乙基铵盐(2)也表现为三维亚铁磁体,奈尔温度为230开尔文;只有另外两种分子磁体具有更高的磁有序温度。饱和磁化强度测量表明,在这两种化合物中,V(II)和高自旋Mn(II)中心是反铁磁耦合的。1和2在其磁相变温度以下均表现出软磁体特有的磁滞回线。这些氰基桥连固体的高磁有序温度证实,将早期过渡元素掺入晶格中可通过增强向氰化物π*轨道的反馈键来促进更强的磁耦合。
