Structural Diversity and Tunable Emission in Hybrid Organic–Inorganic Copper(I) Bromides
Recently, hybrid organic–inorganic copper(I) metal halides have attracted global attention due to their intriguing optical properties and low-cost solution processability. In this work, we report three hybrid organic–inorganic copper(I) bromides, [TMPA]2[Cu2Br4], [TMPA]4[Cu6Br10], and [TMPA]2[Cu4Br6], synthesized through a slow evaporation method using trimethylphenylammonium (TMPA+) as the organic cation. By precise control of the CuBr and TMPABr precursors, different copper halide [Cu2Br4]2–, [Cu6Br10]4–, and [Cu4Br6]2– structural units can be obtained. [TMPA]2[Cu2Br4], [TMPA]4[Cu6Br10], and [TMPA]2[Cu4Br6] demonstrate distinct blue, orange, and greenish-yellow light emission, respectively. The first two compounds have zero-dimensional (0D) crystal structures in centrosymmetric triclinic space group P-1 and monoclinic space group P21/n. In contrast, [TMPA]2[Cu4Br6] features a unique one-dimensional (1D) structure and crystallizes in the centrosymmetric monoclinic space group P21/c. Consequently, the observed greenish-yellow emission of [TMPA]2[Cu4Br6] is also unique, in contrast to the typical orange-red emission of 0D [Cu4Br6]-based compounds. This work provides insights into the design of copper halide light emitters and emphasizes the influence of structural dimensionality on photoluminescence. The tunable optical properties suggest the potential of these materials for multicolor photopatterning, information encryption, and anticounterfeiting applications.
Structural Diversity and Tunable Emission in Hybrid Organic–Inorganic Copper(I) Bromides | Inorganic Chemistry pubs.acs.org/doi/10.1021/... Saparov and co-workers @InorgChem #copper #bromides #TMPA #0D #1D #emission
