Title : ( Diversity in coordination behavior of dipicolinic acid with lead(II), calcium(II), and nickel(II) in the presence of pyrazine and 2-amino-4-methylpyridine spacers in construction of three supramolecular architectures )
Authors: Hossein Eshtiagh Hosseini , Hossein Aghabozorgb , Hossein Aghabozorg , Masoud Mirzaei Shahrabi , Mostafa M. Aminic , Mostafa M. Amini , Ya-Guang Chen , Ardeshir Shokrollahie , Ardeshir Shokrollahi , Roghayyeh Aghaei ,Access to full-text not allowed by authors
Abstract
Three coordination compounds, [Pb(pydc)]n (1), [Ca2(pydc)2(H2O)6]2pydcH2 (2), and [ampyH]2 [Ni(H2O)6][Ni(pydc)2]22H2O (3) (pydc = pyridine-2,6-dicarboxylate ion and ampy = 2-amino-4-methylpyridine), have been prepared by the hydrothermal method and characterized by elemental analyses, FTIR, 1H NMR spectroscopies, and single crystal X-ray diffraction. In 1 the connection of Pb(II) atom and pydc in a double-bridge and double-chelation coordination mode creates a layer structure extending in ½202 plane, there is a p–p stacking interaction between these layers with a short face-to-face distance of 3.289 Å. Compound 2 consists of two pydcH2 molecules and a binuclear calcium(II) complex formed by the single-bridge and double-chelation coordination of pydc ligand. Compound 3 consists of two coordination anions [Ni(pydc)2]2, one coordination cation, [Ni(H2O)6]2+, two protonated organic cations, ampyH+, and two water molecules. In [Ni(pydc)2]2, Ni1 is coordinated by two (pydc)2 ligands in a double- chelate mode, exhibiting an octahedral geometry. The p–p stacking interactions between pydcH2 and the Ca complex in 2 and between pydc ligands in 3, and also the hydrogen bonds between coordination water molecules and pydcH2/pydc are the 3D supramolecular architecture constructing force. The protonation constants of ampy, pz (pyrazine) and pydcH2, as the building blocks of the proton transfer systems (pydcH2–ampy and pydcH2–pz) and their corresponding stability constants were determined by potentiometric studies. The stoichiometry and stability constants of pydc–ampy complex with Ni2+ and pydc–pz complexes with Ca2+ and Pb2+ was investigated by potentiometric technique in aqueous solution. The results from solution studies were compared with the solid state data, in details.
Keywords
Lead Calcium Nickel Proton transfer compound Crystal structure Solution studies@article{paperid:1017434,
author = {Eshtiagh Hosseini, Hossein and Hossein Aghabozorgb and Hossein Aghabozorg and Mirzaei Shahrabi, Masoud and Mostafa M. Aminic and Mostafa M. Amini and Ya-Guang Chen and Ardeshir Shokrollahie and Ardeshir Shokrollahi and Roghayyeh Aghaei},
title = {Diversity in coordination behavior of dipicolinic acid with lead(II), calcium(II), and nickel(II) in the presence of pyrazine and 2-amino-4-methylpyridine spacers in construction of three supramolecular architectures},
journal = {Journal of Molecular Structure},
year = {2010},
volume = {973},
number = {1},
month = {April},
issn = {0022-2860},
pages = {180--189},
numpages = {9},
keywords = {Lead
Calcium
Nickel
Proton transfer compound
Crystal structure
Solution studies},
}
%0 Journal Article
%T Diversity in coordination behavior of dipicolinic acid with lead(II), calcium(II), and nickel(II) in the presence of pyrazine and 2-amino-4-methylpyridine spacers in construction of three supramolecular architectures
%A Eshtiagh Hosseini, Hossein
%A Hossein Aghabozorgb
%A Hossein Aghabozorg
%A Mirzaei Shahrabi, Masoud
%A Mostafa M. Aminic
%A Mostafa M. Amini
%A Ya-Guang Chen
%A Ardeshir Shokrollahie
%A Ardeshir Shokrollahi
%A Roghayyeh Aghaei
%J Journal of Molecular Structure
%@ 0022-2860
%D 2010