Finding narrow-band light emitters for the visible spectral
region
remains an immense challenge. Such phosphors are in great demand for
solid-state lighting and display application. In this context, green
luminescence from tetrahedrally coordinated Mn(II) is an attractive
research direction. While the oxide–ligand environment had
been studied for decades, much less systematic efforts have been undertaken
with regard to halide coordination, especially in the form of fully
inorganic halide matrixes. In this study, we synthesized a series
of hybrid organic–inorganic Mn(II) halides as well as a range
of fully inorganic Zn halide hosts (chlorides, bromides, iodides)
doped with Mn(II). In the latter, tetrahedral coordination is attained
via substitutional doping owing to the tetrahedral symmetry of Zn
sites. We find that the choice of the halide as well as subtle details
of the crystal structure profoundly govern the photoluminescence peak
positions (500–550 nm range) and emission line widths (40–60
nm) as well as radiative lifetimes (shorter for iodides) through the
altered ligand-field effects and degrees of spin–orbit coupling.
The photoluminescence quantum yields were as high as 70–90%.
The major hurdle for the practical use of these compounds lies in
their low absorption coefficients in the blue spectral regions.
Results: There were a total of 211,417 patients, of whom 141,513 received treatment at a Cranial Technologies facility. Patients with Medicaid and Tricare were more likely to exit treatment with ultrabrachycephaly when compared to patients with private insurance (
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