Titelbild: Coordinated Anionic Inorganic Module—An Efficient Approach Towards Highly Efficient Blue‐Emitting Copper Halide Ionic Hybrid Structures (Angew. Chem. 8/2022)

Abstract: Organisch‐anorganische Hybridstrukturen auf Kupferhalogenidbasis haben ein großes Potenzial als lichtemittierende Materialien. In ihrem Forschungsartikel (e202115225) berichten Wei Liu, Gangfeng Ouyang et al. über eine einfache Strategie für die Synthese von stark lumineszierenden Kupferhalogenid‐Hybridstrukturen durch Herstellung eines koordinierten anionischen anorganischen Moduls mit einem neutralen organischen Ligandenmolekül. Mit diesem Ansatz wurde eine Familie blau leuchtender Kupferhalogenid‐Hybridstru… Show more

“…In this context, inorganic-organic hybrid materials and complexes with a metal having a d 10 electronic configuration have been widely reported because of their interesting photophysical properties due to non-quenching of the excited state energy levels. [1][2][3][4][5][6][7] In particular, copper(I) complexes are subjected to extensive study for their practical application in organic lightemitting diodes, light-emitting electrochemical cells, biological sensors, molecular wires, non-linear optics, electrically conductive materials, thermochromic sensors, etc. [8][9][10][11][12][13][14] Complexes and coordination polymers (CPs) derived from copper(I) iodide with nitrogen, sulphur and phosphorous-containing ligands have emerged as promising candidates for multifunctional materials with variable photophysical and electrical properties and provide an alternative way to synthesize affordable and environmentally benign materials.…”

Copper(i) iodide coordination polymers with triazole substituted pyridine ligands: photophysical and electrical conductivity properties

“…In this context, inorganic-organic hybrid materials and complexes with a metal having a d 10 electronic configuration have been widely reported because of their interesting photophysical properties due to non-quenching of the excited state energy levels. [1][2][3][4][5][6][7] In particular, copper(I) complexes are subjected to extensive study for their practical application in organic lightemitting diodes, light-emitting electrochemical cells, biological sensors, molecular wires, non-linear optics, electrically conductive materials, thermochromic sensors, etc. [8][9][10][11][12][13][14] Complexes and coordination polymers (CPs) derived from copper(I) iodide with nitrogen, sulphur and phosphorous-containing ligands have emerged as promising candidates for multifunctional materials with variable photophysical and electrical properties and provide an alternative way to synthesize affordable and environmentally benign materials.…”

Copper(i) iodide coordination polymers with triazole substituted pyridine ligands: photophysical and electrical conductivity properties