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    <title language="eng">Structural characterization of gallium fluoride phosphate glasses by advanced solid‐state NMR methods and correlation with photophysical properties</title>
    <abstract language="eng">AbstractGallium fluoride phosphate glasses feature low refractive index, high energy radiation resistance, wide transmission range, and favorable emission characteristics of rare‐earth dopants. For the development of optimized glass compositions, a fundamental understanding of these properties in terms of glass structure is sought. We report nuclear magnetic resonance (NMR) structural studies of glasses in the system xGa(PO3)3–(40 − x)GaF3–20BaF2–20ZnF2–20SrF2 (x = 5, 10, 15, 20, and 25 mol%). 31P NMR results with 71Ga recoupling show that the network structure is dominated by P–O–Ga linkages, and no P–O–P linkages exist. 71Ga NMR results show that Ga is mainly six‐coordinated featuring a mixed fluoride/phosphate coordination. Quantitative estimates of this ligand distribution around gallium were obtained by 71Ga{31P} spin echo double resonance (REDOR) measurements. Photophysical properties suggest changes in the Eu(III) ligand distribution toward a fluoride‐dominated environment at low P/F ratio while the glass network is largely sustained by bridging oxygen atoms via P–O–Ga linkages.</abstract>
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For the development of optimized glass compositions, a fundamental understanding of these properties in terms of glass structure is sought. We report nuclear magnetic resonance (NMR) structural studies of glasses in the system &lt;jats:italic&gt;x&lt;\/jats:italic&gt;Ga(PO&lt;jats:sub&gt;3&lt;\/jats:sub&gt;)&lt;jats:sub&gt;3&lt;\/jats:sub&gt;\u2013(40\u00a0\u2212\u00a0&lt;jats:italic&gt;x&lt;\/jats:italic&gt;)GaF&lt;jats:sub&gt;3&lt;\/jats:sub&gt;\u201320BaF&lt;jats:sub&gt;2&lt;\/jats:sub&gt;\u201320ZnF&lt;jats:sub&gt;2&lt;\/jats:sub&gt;\u201320SrF&lt;jats:sub&gt;2&lt;\/jats:sub&gt; (&lt;jats:italic&gt;x&lt;\/jats:italic&gt;\u00a0=\u00a05, 10, 15, 20, and 25\u00a0mol%). &lt;jats:sup&gt;31&lt;\/jats:sup&gt;P NMR results with &lt;jats:sup&gt;71&lt;\/jats:sup&gt;Ga recoupling show that the network structure is dominated by P\u2013O\u2013Ga linkages, and no P\u2013O\u2013P linkages exist. &lt;jats:sup&gt;71&lt;\/jats:sup&gt;Ga NMR results show that Ga is mainly six\u2010coordinated featuring a mixed fluoride\/phosphate coordination. Quantitative estimates of this ligand distribution around gallium were obtained by &lt;jats:sup&gt;71&lt;\/jats:sup&gt;Ga{&lt;jats:sup&gt;31&lt;\/jats:sup&gt;P} spin echo double resonance (REDOR) measurements. 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