Cockrell Gregory M, Zhang Gang, VanDerveer Donald G, Thummel Randolph P, Hancock Robert D
Department of Chemistry and Biochemistry, University of North Carolina Wilmington, Wilmington, North Carolina 28403, USA.
J Am Chem Soc. 2008 Jan 30;130(4):1420-30. doi: 10.1021/ja077141m. Epub 2008 Jan 5.
The metal ion complexing properties of the ligand DPP (2,9-di-(pyrid-2-yl)-1,10-phenanthroline) were studied by crystallography, fluorimetry, and UV-visible spectroscopy. Because DPP forms five-membered chelate rings, it will favor complexation with metal ions of an ionic radius close to 1.0 A. Metal ion complexation and accompanying selectivity of DPP is enhanced by the rigidity of the aromatic backbone of the ligand. Cd2+, with an ionic radius of 0.96 A, exhibits a strong CHEF (chelation enhanced fluorescence) effect with 10(-8) M DPP, and Cd2+ concentrations down to 10(-9) M can be detected. Other metal ions that cause a significant CHEF effect with DPP are Ca2+ (10(-3) M) and Na+ (1.0 M), whereas metal ions such as Zn2+, Pb2+, and Hg2+ cause no CHEF effect with DPP. The lack of a CHEF effect for Zn2+ relates to the inability of this small ion to contact all four donor atoms of DPP. The structures of Cd(DPP)22 (1), [Pb(DPP)(ClO4)2H2O] (2), and [Hg(DPP)(ClO4)2] (3) are reported. The Cd(II) in 1 is 8-coordinate with the Cd-N bonds to the outer pyridyl groups stretched by steric clashes between the o-hydrogens on these outer pyridyl groups and the central aromatic ring of the second DPP ligand. The 8-coordinate Pb(II) in 2 has two short Pb-N bonds to the two central nitrogens of DPP, with longer bonds to the outer N-donors. The coordination sphere around the Pb(II) is completed by a coordinated water molecule, and two coordinated ClO4(-) ions, with long Pb-O bonds to ClO4(-) oxygens, typical of a sterically active lone pair on Pb(II). The Hg(II) in 3 shows an 8-coordinate structure with the Hg(II) forming short Hg-N bonds to the outer pyridyl groups of DPP, whereas the other Hg-N and Hg-O bonds are rather long. The structures are discussed in terms of the fit of large metal ions to DPP with minimal steric strain. The UV-visible studies of the equilibria involving DPP and metal ions gave formation constants that show that DPP has a higher affinity for metal ions with an ionic radius close to 1.0 A, particularly Cd(II), Gd(III), and Bi(III), and low affinity for small metal ions such as Ni(II) and Zn(II). The complexes of several metal ions, such as Cd(II), Gd(III), and Pb(II), showed an equilibrium involving deprotonation of the complex at remarkably low pH values, which was attributed to deprotonation of coordinated water molecules according to: [M(DPP)(H2O)]n+ <==> M(DPP)(OH)+ + H+. The tendency to deprotonation of these DPP complexes at low pH is discussed in terms of the large hydrophobic surface of the coordinated DPP ligand destabilizing the hydration of coordinated water molecules and the build-up of charge on the metal ion in its DPP complex because of the inability of the coordinated DPP ligand to hydrogen bond with the solvent.
通过晶体学、荧光分析法和紫外-可见光谱法研究了配体DPP(2,9-二(吡啶-2-基)-1,10-菲咯啉)的金属离子络合性质。由于DPP形成五元螯合环,它将有利于与离子半径接近1.0 Å的金属离子络合。配体芳香主链的刚性增强了DPP的金属离子络合作用及伴随的选择性。离子半径为0.96 Å的Cd2+与10(-8) M的DPP表现出强烈的螯合增强荧光(CHEF)效应,并且可以检测到低至10(-9) M的Cd2+浓度。其他与DPP产生显著CHEF效应的金属离子是Ca2+(10(-3) M)和Na+(1.0 M),而诸如Zn2+、Pb2+和Hg2+等金属离子与DPP不产生CHEF效应。Zn2+缺乏CHEF效应与该小离子无法与DPP的所有四个供体原子接触有关。报道了Cd(DPP)22 (1)、[Pb(DPP)(ClO4)2H2O] (2)和[Hg(DPP)(ClO4)2] (3)的结构。1中的Cd(II)为八配位,Cd-N键与外部吡啶基相连,这些外部吡啶基上的邻位氢与第二个DPP配体的中心芳环之间的空间冲突使这些键伸长。2中的八配位Pb(II)与DPP的两个中心氮原子有两个短的Pb-N键,与外部氮供体的键较长。Pb(II)周围的配位球由一个配位水分子和两个配位的ClO4(-)离子完成,Pb与ClO4(-)氧原子的键长较长,这是Pb(II)上空间活性孤对的典型特征。3中的Hg(II)显示出八配位结构,Hg(II)与DPP的外部吡啶基形成短的Hg-N键,而其他Hg-N和Hg-O键相当长。根据大金属离子与DPP的适配且空间应变最小来讨论这些结构。涉及DPP和金属离子的平衡的紫外-可见研究给出了形成常数,表明DPP对离子半径接近1.0 Å的金属离子,特别是Cd(II)、Gd(III)和Bi(III)具有较高的亲和力,而对诸如Ni(II)和Zn(II)等小金属离子具有较低的亲和力。几种金属离子如Cd(II)、Gd(III)和Pb(II)的络合物在非常低的pH值下显示出涉及络合物去质子化的平衡,这归因于配位水分子的去质子化,根据:[M(DPP)(H2O)]n+ <==> M(DPP)(OH)+ + H+。根据配位的DPP配体的大疏水表面使配位水分子的水合作用不稳定以及由于配位的DPP配体无法与溶剂形成氢键而导致其DPP络合物中金属离子上电荷的积累,讨论了这些DPP络合物在低pH下的去质子化趋势。
