A synergetic model for implementing single-component white-light emission: a case study of zero-dimensional cadmium halides?
Materials Chemistry Frontiers Pub Date: 2022-12-29 DOI: 10.1039/D2QM01049F
Abstract
Although low-dimensional hybrid metal halides have recently been the subject of considerable attention as white-light emitters, the superiority of structural diversity has not been relied upon to tune photoluminescence (PL) behaviors by synergistic control of organic and inorganic compositions. Herein, a series of distinctive cadmium halides (C6H7NX)2CdX4 (X = Cl, Br, I) with π-conjugated ligands and halogen substitution are developed, in which the isolated [CdX4]2? tetrahedrons are separated by large [C6H7NX]+ organic cations into a unique zero-dimensional (0D) host-guest structure. Intriguingly, the synergetic controlling of π-conjugated ligands and [CdX4]2? units enables single-component ultra-broadband white-light emissions with a record color rendering index (CRI) of 99 in the above novel 0D cadmium halides. (C6H7NCl)2CdCl4 and (C6H7NBr)2CdBr4 exhibit ultra-broadband cold white-light emission with large full-width at half-maximum (FWHM) of 218 nm and 244 nm, respectively, which is triggered by the synergistic emissions of [C6H7NX]+ ligands and self-trapped excitons (STEs) of Cd2+. A comparison of PL properties of cadmium halides with Cl/Br/I transmutation elucidated that the nature of the halogens is strongly dependent on the trapping/de-trapping of STEs as well as on the π → π* transition of the π-conjugated ligands, along with the resulting PL modulation on emission intensities, wavelengths, and FWHM. This work reveals a unique synergetic model for implementing white-light emission and extends to the design of high-performance hybrid emitters.
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Journal Name:Materials Chemistry Frontiers
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CAS no.: 89640-58-4