Columnar discotic Pt(II) metallomesogens as luminescence multifunctional materials with chemo and thermosensor abilities

abstract

A new family of Pt(II) luminescent metallomesogens based on dicatenar pyridylpyrazolate ligands [Pt(pz(R(n,n)py))(2)] (R(n,n) = C6H3(OCnH2n+1)(2), n = 4-18) has been prepared, and their mesomorphic and photophysical properties are described. The compounds were isolated as red (n = 4-8) or yellow (n = 10-18) solids at room temperature, but the first ones were converted to yellow crystals by slow evaporation of a chloroform-acetone mixed solution. All of them behave as discotic liquid crystal materials, exhibiting hexagonal columnar mesophases (Col(h)) in a wide range of temperatures. Photoluminescence studies in the solid state at variable temperatures showed a high emission in the liquid crystalline phase, which was significantly red-shifted with respect to the yellow-green emission of the solid state. This photophysical change was attributed to the formation of aggregates through Pt(d(z)(2))-Pt(d(z)(2)) interactions, thereby giving rise to the metal-metal-to-ligand charge transfers ((MMLCT)-M-3) responsible for the luminescence observed. Taking advantage of these properties we have fabricated polymeric solid supports doped with the platinum complex [Pt(pz(R(10,10)py))(2)], which can be used as temperature sensors for real technological applications. In addition, the Pt-bispyrazolate complexes and their corresponding pyrazole ligands have been proved to be useful as chemosensors towards Pd2+, Zn2+, Cd2+ and Hg2+ metal ions.

keywords

DENSITY-FUNCTIONAL THEORY; EXCITATION-ENERGIES; LIQUID-CRYSTAL; FLUORESCENT CHEMOSENSOR; GEOMETRIC DERIVATIVES; LIVING CELLS; COMPLEXES; PYRAZOLE; HG2+; LIGANDS

subject category

Materials Science; Physics

authors

Cuerva, C; Campo, JA; Ovejero, P; Torres, MR; Oliveira, E; Santos, SM; Lodeiro, C; Cano, M

Groups

acknowledgements

M. Cano is grateful to the Ministerio de Economia y Competitividad (Spain), project CTQ2011-25172. E. Oliveira acknowledges the post-doctoral grant from Fundacao para a Ciencia e a Tecnologia (Portugal) SFRH/BPD/72557/2010. PROTEOMASS Scientific Society (Portugal) and PROTEOMASS Scientific Society (Spain) are also acknowledged for funding. C. Lodeiro thanks REQUIMTE-FCT PEst-C/EQB/LA0006/2013 for funding. We would like to thank Prof. Guillermo Orellana and Dr Ana Bel en Descalzo for their contribution and help with the lifetime measurement.

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