Abstract
Complexes of type [M(tpt)2]X2 (M2+ = Fe2+, Co2+, Ni2+; tpt = 2,4,6-tri{pyrazol-1-yl}-1,3,5-triazine; X– = BF4– or ClO4–) crystallize in a cubic lattice, with the metal ion and ligand conformation showing unusual symmetry-imposed disorder. Addition of 1 equiv AgX to the corresponding preformed [M(tpt)2]X2 salt in concentrated MeNO2 solution affords thixotropic gels. Gelation was not observed in analogous reactions using [Mn(tpt)2][ClO4]2, or from reactions in other, more donating solvents. Scanning electron microscopy (SEM) images from dilute solutions of the reagents confirmed the fibrous microstructure of the gels and their homogeneous elemental composition. However, energy-dispersive X-ray data show a reduced Fe/Ag ratio compared to the Co/Ag and Ni/Ag gels, where a 1:1 ratio of metals is evident. More concentrated gels decomposed to silver nanoparticles during SEM sample preparation. Mass spectrometry and 1H NMR indicate that silver induces partial ligand displacement reactions in [Fe(tpt)2]2+ and [Co(tpt)2]2+, but not in [Ni(tpt)2]2+. Hence, the strength of the gels, which follows the order M = Mn (no gel) < Fe < Co < Ni, correlates with the stability of octahedral [M(tpt)2]2+ under gelation conditions. Iron(II) complexes of the related ligands 2,4,6-tri{pyrazol-1-yl}pyridine (tpp) and 2,4,6-tri{pyrazol-1-yl}pyrimidine (tpym) did not undergo gelation with silver salts under the above conditions. The unique properties of tpt as a gelator in this work may reflect the crystallographically observed ability of metal-coordinated tpt to chelate to exogenous silver ions, through its pendant pyrazolyl group and triazinyl N donors. In contrast, the pendant azolyl substituents in silver complexes of the nongelators tpp and tpym only bind exogenous silver in monodentate fashion.
Highlights
Unravelling soft matter systems is a rich field of scientific investigation among chemists, physicists, and engineers
Over the last two decades, supramolecular gels have gained attention because of their potential applications in biomaterials, catalysis, displays, sensors, surface science, tissue engineering, and pollutant removal.[1−3] Supramolecular gels are usually formed by low-molecular-weight gelator molecules assembled in a 3D network, which traps a bulk amount of solvent via noncovalent interactions
Coordination polymer gels (CPGs) or metallogels have been widely reported, where metal ions play a crucial role in the assembly of the 3D network.[4−8] Inclusion of transition metals in the gel assembly brings tunability to the coordination strength, as well as new redox, optic, electronic, and magnetic properties which are intrinsic to the metal ion
Summary
Unravelling soft matter systems is a rich field of scientific investigation among chemists, physicists, and engineers. The reversible and dynamic nature of the supramolecular interactions provides a mechanism for sensing or physical transformations in response to external stimuli.[2,3] More recently, coordination polymer gels (CPGs) or metallogels have been widely reported, where metal ions play a crucial role in the assembly of the 3D network.[4−8] Inclusion of transition metals in the gel assembly brings tunability to the coordination strength, as well as new redox, optic, electronic, and magnetic properties which are intrinsic to the metal ion These afford additional possibilities for applications in catalysis, luminescence, and adhesives as well as new types of sensing functionality.[7,8]. To aid the interpretation of these results, complexes of two other, related ligands were prepared and screened for silver-
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