The critical role of the coordination sphere in the high-efficiency blue-light emission from aminopyrazine metal-organic polymers

The critical role of the coordination sphere in the high-efficiency blue-light emission from aminopyrazine metal-organic polymers

A cadmium coordination polymer assembled with aminopyrazine (ampyz) and acetate is known to convert UV radiation into blue light with external brightness of 75.4%. Here we prepared a novel light-emitting material based on this coordination polymeric framework by replacing the high-toxicity cadmium e...

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Bibliographic Details
Published in:Dyes and pigments Vol. 186; p. 109025
Main Authors: Dias Campos, João Humberto, Alvarenga, Meiry Edivirges, Lemes, Maykon Alves, Antônio do Nascimento Neto, José, Guimarães, Freddy Fernandes, Queiroz Maia, Lauro June, Costa de Santana, Ricardo, Martins, Felipe Terra
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2021
Subjects:
Crystal structure
Inorganic compounds
Luminescence
Optical properties
TD-DFT
X-ray diffraction
X-ray diffraction
Inorganic compounds
Optical properties
Luminescence
Crystal structure
TD-DFT
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Summary:A cadmium coordination polymer assembled with aminopyrazine (ampyz) and acetate is known to convert UV radiation into blue light with external brightness of 75.4%. Here we prepared a novel light-emitting material based on this coordination polymeric framework by replacing the high-toxicity cadmium element to zinc. The novel photoluminescent material presented internal and external photoluminescence quantum yields (iPLQY and ePLQY) of 16.0% and 14.4%, respectively. This emission efficiency decrease in the zinc isomorph resulted from the cleavage of one acetate coordination bond since Zn2+ is smaller than Cd2+. The lack of this coordination bond results in poor orbital overlap and lower structural rigidity and then less efficient charge transfer and higher radiativeless decay. The reaction of zinc acetate dihydrate and ampyz originated also another coordination compound, which has however a discrete motif and lower iPLQY and ePLQY values of 6.6% and 5.9%, respectively. This study therefore expands our knowledge on the reasons behinds cadmium optimizing much the UV conversion efficiency of the ampyz framework. [Display omitted] •Two new blue-light-emitters based on the ampyz-cadmium coordination polymer.•Zinc isomorphic loses one acetate coordination bond since Zn2+ is smaller than Cd2+.•This results in less: orbital overlap, structural rigidity and emission intensity.•A discrete Zn complex without intramolecular NH2…AcO hydrogen bond has lower PLQYs.
ISSN:0143-7208
1873-3743
DOI:10.1016/j.dyepig.2020.109025