Department of Chemistry, Carleton University, Ottawa, Ontario K1S 5B6, Canada.
Inorg Chem. 2013 Feb 4;52(3):1621-30. doi: 10.1021/ic302535h. Epub 2013 Jan 22.
Nine [Ru(Tp)(dppe)L] complexes, where Tp is hydrotris(pyrazol-1-yl)borate, dppe is ethylenebis(diphenylphosphine), and L is (4-nitrophenyl)cyanamide (NO(2)pcyd(-)), (2-chlorophenyl)cyanamide (2-Clpcyd(-)), (3-chlorophenyl)cyanamide (3-Clpcyd(-)), (2,4-dichlorophenyl)cyanamide (2,4-Cl(2)pcyd(-)), (2,3-dichlorophenyl)cyanamide (2,3-Cl(2)pcyd(-)), (2,5-dichlorophenyl)cyanamide (2,5-Cl(2)pcyd(-)), (2,4,5-trichlorophenyl)cyanamide (2,4,5-Cl(3)pcyd(-)), (2,3,5,6-tetrachlorophenyl)cyanamide (2,3,5,6-Cl(4)pcyd(-)), and (pentachlorophenyl)cyanamide (Cl(5)pcyd(-)), and the dinuclear complex [{Ru(Tp)(dppe)}(2)(μ-adpc)], where adpc(2-) is azo-4,4-diphenylcyanamide, have been prepared and characterized. The crystal structures of [Ru(Tp)(dppe)(Cl(5)pcyd)] and [{Ru(Tp)(dppe)}(2)(μ-adpc)] reveal the Ru(II) ion to occupy a pseudooctahedral coordination sphere in which the cyanamide ligand coordinates to Ru(II) by its terminal nitrogen atom. For both complexes, the cyanamide ligands are planar, indicating significant π mixing between the cyanamide and phenyl moieties as well as the azo group in the case of adpc(2-). The optical spectra of the nominally ruthenium(III) species Ru(Tp)(dppe)L were obtained through spectroelectrochemistry measurements and showed an intense near-IR absorption band. Time-dependent density functional theory calculations of these species revealed that oxidation of the ruthenium(II) species led to species where partial oxidation of the cyanamide ligand had occurred, indicative of noninnocent character for these ligands. The spin densities reveal that while the 3-Clpycd species has substantial Ru(II)(3-Clpycd(0)) character, the Cl(5)pycd species is a much more localized ruthenium(III) complex of the Cl(5)pycd monoanion. Some bond order and charge distribution data are derived for these ruthenium(III) species. The near-IR band is assigned as a quite complex mixture of d-d, 4d(π) to L(NCN) MLCT, and L(NCN) to Ru 4d LMCT with even a scorpionate ligand component. Spectroelectrochemistry was also performed on [{Ru(Tp)(dppe)}(2)(μ-adpc)] to generate the mixed-valence state. The intense intervalence transition that is observed in the near-IR is very similar to that previously reported for {Ru(trpy)(bpy)}(2)(μ-adpc), where trpy is 2,2':6',2"-terpyridine and bpy is 2,2'-bipyridine, and by analogy identifies {Ru(Tp)(dppe)}(2)(μ-adpc) as a delocalized mixed-valence complex.
已经制备和表征了 9 种 [Ru(Tp)(dppe)L] 配合物,其中 Tp 是六氢三(吡唑-1-基)硼酸盐,dppe 是亚乙基二(二苯基膦),L 是(4-硝基苯基)氰酰胺(NO(2)pcyd(-))、(2-氯苯基)氰酰胺(2-Clpcyd(-))、(3-氯苯基)氰酰胺(3-Clpcyd(-))、(2,4-二氯苯基)氰酰胺(2,4-Cl(2)pcyd(-))、(2,3-二氯苯基)氰酰胺(2,3-Cl(2)pcyd(-))、(2,5-二氯苯基)氰酰胺(2,5-Cl(2)pcyd(-))、(2,4,5-三氯苯基)氰酰胺(2,4,5-Cl(3)pcyd(-))、(2,3,5,6-四氯苯基)氰酰胺(2,3,5,6-Cl(4)pcyd(-))和(五氯苯基)氰酰胺(Cl(5)pcyd(-)),以及双核配合物 [{Ru(Tp)(dppe)}(2)(μ-adpc)],其中 adpc(2-)是偶氮-4,4-二苯基氰酰胺。[Ru(Tp)(dppe)(Cl(5)pcyd)] 和 [{Ru(Tp)(dppe)}(2)(μ-adpc)] 的晶体结构表明,Ru(II) 离子占据了一个拟八面体配位场,其中氰酰胺配体通过其末端氮原子与 Ru(II)配位。对于这两个配合物,氰酰胺配体都是平面的,这表明氰酰胺和苯基部分以及偶氮基团之间存在明显的 π 混合,在 adpc(2-)的情况下也是如此。通过光谱电化学测量获得了名义上的 Ru(III)物种 Ru(Tp)(dppe)L 的光光谱,其显示出强烈的近红外吸收带。这些物种的时间依赖密度泛函理论计算表明,Ru(II) 物种的氧化导致了氰酰胺配体部分氧化的物种,表明这些配体具有非自由基特征。自旋密度表明,虽然 3-Clpycd 物种具有相当大的 Ru(II)(3-Clpycd(0))特征,但 Cl(5)pycd 物种是 Cl(5)pycd 单阴离子的更局部化的 Ru(III)配合物。为这些 Ru(III)物种导出了一些键级和电荷分布数据。近红外带被指定为相当复杂的 d-d、4d(π)到 L(NCN) MLCT 和 L(NCN) 到 Ru 4d LMCT 的混合物,甚至还有一个螺环配体成分。也对 [{Ru(Tp)(dppe)}(2)(μ-adpc)] 进行了光谱电化学研究,以产生混合价态。在近红外中观察到的强烈的间隔跃迁与之前报道的 {Ru(trpy)(bpy)}(2)(μ-adpc) 非常相似,其中 trpy 是 2,2':6',2"-三联吡啶,bpy 是 2,2'-联吡啶,并且通过类比将 {Ru(Tp)(dppe)}(2)(μ-adpc) 识别为一个离域的混合价态配合物。
