Gildea Brendan, Harris Michelle M, Gavin Laurence C, Murray Caroline A, Ortin Yannick, Müller-Bunz Helge, Harding Charles J, Lan Yanhua, Powell Annie K, Morgan Grace G
School of Chemistry and Chemical Biology, University College Dublin , Belfield, Dublin, D4 Ireland.
Inorg Chem. 2014 Jun 16;53(12):6022-33. doi: 10.1021/ic5003012. Epub 2014 Jun 5.
Eleven new mononuclear manganese(III) complexes prepared from two hexadentate ligands, L1 and L2, with different degrees of steric bulk in the substituents are reported. L1 and L2 are Schiff bases resulting from condensation of N,N'-bis(3-aminopropyl)ethylenediamine with 3-methoxy-2-hydroxybenzaldehyde and 3-ethoxy-2-hydroxybenzaldehyde respectively, and are members of a ligand series we have abbreviated as R-Sal2323 to indicate the 323 alkyl connectivity in the starting tetraamine and the substitution (R) on the phenolate ring. L1 hosts a methoxy substituent on both phenolate rings, while L2 bears a larger ethoxy group in the same position. Structural and magnetic properties are reported in comparison with those of a previously reported analogue with L1, namely, [MnL1]NO3, (1e). The BPh4(-) and PF6(-) complexes [MnL1]BPh4, (1a), [MnL2]BPh4, (2a), [MnL1]PF6, (1b'), and [MnL2]PF6, (2b), with both ligands L1 and L2, remain high-spin (HS) over the measured temperature range. However, the monohydrate of (1b') [MnL1]PF6·H2O, (1b), shows gradual spin-crossover (SCO), as do the ClO4(-), BF4(-), and NO3(-) complexes [MnL1]ClO4·H2O, (1c), [MnL2]ClO4, (2c), [MnL1]BF4·H2O, (1d), [MnL2]BF4·0.4H2O, (2d), [MnL1]NO3, (1e), and [MnL2]NO3·EtOH, (2e). The three complexes formed with ethoxy-substituted ligand L2 all show a higher T1/2 than the analogous complexes with methoxy-substituted ligand L1. Analysis of distortion parameters shows that complexes formed with the bulkier ligand L2 exhibit more deformation from perfect octahedral geometry, leading to a higher T1/2 in the SCO examples, where T1/2 is the temperature where the spin state is 50% high spin and 50% low spin. Spin state assignment in the solid state is shown to be solvate-dependent for complexes (1b) and (2e), and room temperature UV-visible and NMR spectra indicate a solution-state spin assignment intermediate between fully HS and fully low spin in 10 complexes, (1a)-(1e) and (2a)-(2e).
报道了由两种具有不同空间位阻程度取代基的六齿配体L1和L2制备的11种新型单核锰(III)配合物。L1和L2是席夫碱,分别由N,N'-双(3-氨基丙基)乙二胺与3-甲氧基-2-羟基苯甲醛和3-乙氧基-2-羟基苯甲醛缩合而成,它们是我们简称为R-Sal2323的配体系列的成员,以表示起始四胺中的323烷基连接性和酚盐环上的取代基(R)。L1在两个酚盐环上都有一个甲氧基取代基,而L2在相同位置带有一个更大的乙氧基。与之前报道的含有L1的类似物[MnL1]NO3(1e)相比,报道了其结构和磁性性质。含有配体L1和L2的BPh4(-)和PF6(-)配合物[MnL1]BPh4(1a)、[MnL2]BPh4(2a)、[MnL1]PF6(1b')和[MnL2]PF6(2b)在测量温度范围内保持高自旋(HS)。然而,(1b')[MnL1]PF6·H2O(1b)的一水合物表现出逐渐的自旋交叉(SCO),ClO4(-)、BF4(-)和NO3(-)配合物[MnL1]ClO4·H2O(1c)、[MnL2]ClO4(2c)、[MnL1]BF4·H2O(1d)、[MnL2]BF4·0.4H2O(2d)、[MnL1]NO3(1e)和[MnL2]NO3·EtOH(2e)也是如此。与含有甲氧基取代配体L1的类似配合物相比,由乙氧基取代配体L2形成 的三种配合物均显示出更高的T1/2。畸变参数分析表明,由体积更大的配体L2形成的配合物与理想八面体几何形状的变形更大,导致在SCO实例中T1/2更高,其中T1/2是自旋态为50%高自旋和50%低自旋的温度。对于配合物(1b)和(2e),固态自旋态归属显示为溶剂依赖性,室温紫外可见光谱和核磁共振光谱表明,在10种配合物(1a)-(1e)和(2a)-(2e)中,溶液态自旋归属介于完全HS和完全低自旋之间。
