Luminescence properties of ‘‘double-stranded staircase’’ copper(I) halide coordination polymers with N-containing ligands

• Authors: POSPÍŠIL Jiří; JESS Inke; NATHER Christian; NEČAS Marek; TÁBORSKÝ Petr
• Year of publication: 2011
• Type: Article in Periodical
• Magazine / Source: New Journal of Chemistry
• MU Faculty or unit: Faculty of Science
• Field: Analytic chemistry
• Keywords: coordination polymers copper luminescence
• Description: A set of CuIXL coordination polymers (X = Cl, Br, I; L = derivatives of pyrazine and bipyridine) with double-stranded staircase structures was analyzed by X-ray crystallography and luminescence spectroscopy to find a relationship between the structure and luminescence properties of the polymers. Our measurements have proved that luminescence emission wavelengths varied between 500–750 nm, after the polymers were irradiated by light with a wavelength of 370 nm. Although each coordination polymer has shown different emission maximum, we observed several interesting trends related to the structure of the compounds. There is a clear correlation between the emission maxima and the halide size and/or Cu–X distance, respectively. On the other hand, the substitution of the ligand L (pyrazine derivatives, 4,40-bipyridine) has no significant contribution to the emission spectra. This observation supports the theory that the halide to metal charge transfer (XMCT) plays a key role in the photoluminescence of staircase polymers.

Related projects

• Preparation and study on properties of a new inorganic luminophores containing copper (I)
• Synthesis and properties of inorganic-organic polymeric materials
• Vývoj metodologie a instrumentace analytické chemie pro studium složení a vlastností přírodních a syntetických materiálů