How CH‐based interacions affect the packing of mercury halide complexes
سال
: 2017
چکیده: In the presence study, the organic ligand (2-naphtyl pyridine-2-carboxylate) (L), which was designed to make exclusive C‒H based interactions, was employed for the synthesis of three new mercury (II) halide complexes, [Hg(L)2Cl2] (1), [Hg(L)Br2] (2) and [Hg(L)I2] (3). All of the compounds were fully characterized using FT-IR, TGA, DSC, mass spectrometry, CHNS elemental analyses, PXRD, NMR and SCXRD. Interestingly, the crystal structure analysis revealed that the coordination geometry of metal
center and structural motifs of complexes have been affected by accompanying anions. Furthermore, the repetitivity of C-H based interactions (e.g. C-H•••O and C‒H•••π) in coordination compounds emphasized to the critical role of these weak interactions in the stability of self-assembly process. The coordination geometry around the Hg (II) ion has seesaw shape in distorted tetrahedral geometry for (1) with a τ4 index of 0.727, while there is geometry of square-based pyramid for (2) and (3)
with a trigonality index, τ5 of 0.037 and 0.082 respectively. In the case of (2) and (3) the 1D linear chain are constructed as a consequence of one dimensional coordination polymers. The resulting 1D chain is linked together by the weak C‒H based interactions between adjacent organic ligands to generate two distinct inorganic-organic zones in the crystal packing. In the structure of (1) the coordination environment of Hg atom consists of two crystallography independent ligands and two chloride
ions. The discrete molecules of (1) are also engaged in the similar weak interactions to represent a unique combination of weak forces that contributes to the self-assembly process. The titled structures clearly illustrate how weak C‒H based interactions play an important role in the 2D and 3D packing of metal complexes by the formation of repeatability supramolecular associations.
center and structural motifs of complexes have been affected by accompanying anions. Furthermore, the repetitivity of C-H based interactions (e.g. C-H•••O and C‒H•••π) in coordination compounds emphasized to the critical role of these weak interactions in the stability of self-assembly process. The coordination geometry around the Hg (II) ion has seesaw shape in distorted tetrahedral geometry for (1) with a τ4 index of 0.727, while there is geometry of square-based pyramid for (2) and (3)
with a trigonality index, τ5 of 0.037 and 0.082 respectively. In the case of (2) and (3) the 1D linear chain are constructed as a consequence of one dimensional coordination polymers. The resulting 1D chain is linked together by the weak C‒H based interactions between adjacent organic ligands to generate two distinct inorganic-organic zones in the crystal packing. In the structure of (1) the coordination environment of Hg atom consists of two crystallography independent ligands and two chloride
ions. The discrete molecules of (1) are also engaged in the similar weak interactions to represent a unique combination of weak forces that contributes to the self-assembly process. The titled structures clearly illustrate how weak C‒H based interactions play an important role in the 2D and 3D packing of metal complexes by the formation of repeatability supramolecular associations.
کلیدواژه(گان): CH-based interaction,Crystal engineering
کالکشن
:
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آمار بازدید
How CH‐based interacions affect the packing of mercury halide complexes
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contributor author | علیرضا سلیمی | en |
contributor author | علی سمیع | en |
contributor author | Jered C. Garrison | en |
contributor author | Alireza Salimi | fa |
contributor author | ali samie | fa |
date accessioned | 2020-06-06T14:25:46Z | |
date available | 2020-06-06T14:25:46Z | |
date copyright | 8/21/2017 | |
date issued | 2017 | |
identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3396263 | |
description abstract | In the presence study, the organic ligand (2-naphtyl pyridine-2-carboxylate) (L), which was designed to make exclusive C‒H based interactions, was employed for the synthesis of three new mercury (II) halide complexes, [Hg(L)2Cl2] (1), [Hg(L)Br2] (2) and [Hg(L)I2] (3). All of the compounds were fully characterized using FT-IR, TGA, DSC, mass spectrometry, CHNS elemental analyses, PXRD, NMR and SCXRD. Interestingly, the crystal structure analysis revealed that the coordination geometry of metal center and structural motifs of complexes have been affected by accompanying anions. Furthermore, the repetitivity of C-H based interactions (e.g. C-H•••O and C‒H•••π) in coordination compounds emphasized to the critical role of these weak interactions in the stability of self-assembly process. The coordination geometry around the Hg (II) ion has seesaw shape in distorted tetrahedral geometry for (1) with a τ4 index of 0.727, while there is geometry of square-based pyramid for (2) and (3) with a trigonality index, τ5 of 0.037 and 0.082 respectively. In the case of (2) and (3) the 1D linear chain are constructed as a consequence of one dimensional coordination polymers. The resulting 1D chain is linked together by the weak C‒H based interactions between adjacent organic ligands to generate two distinct inorganic-organic zones in the crystal packing. In the structure of (1) the coordination environment of Hg atom consists of two crystallography independent ligands and two chloride ions. The discrete molecules of (1) are also engaged in the similar weak interactions to represent a unique combination of weak forces that contributes to the self-assembly process. The titled structures clearly illustrate how weak C‒H based interactions play an important role in the 2D and 3D packing of metal complexes by the formation of repeatability supramolecular associations. | en |
language | English | |
title | How CH‐based interacions affect the packing of mercury halide complexes | en |
type | Conference Paper | |
contenttype | External Fulltext | |
subject keywords | CH-based interaction | en |
subject keywords | Crystal engineering | en |
identifier link | https://profdoc.um.ac.ir/paper-abstract-1063561.html | |
conference title | 24th Congress & General Assembly of the International Union of Crystallography 2017 | en |
conference location | حیدرآباد | fa |
identifier articleid | 1063561 |