The Fundamental Disorder Unit in (Si, P)−(O, N) Networks

Dialer, Marwin; Witthaut, Kristian; Bräuniger, Thomas; Schmidt, Peter J.; Schnick, Wolfgang

doi:10.1002/ange.202401419

Angewandte Chemie

2024

DOI: 10.1002/ange.202401419

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The Fundamental Disorder Unit in (Si, P)−(O, N) Networks

Marwin Dialer,

Kristian Witthaut,

Thomas Bräuniger

et al.

Abstract: We present the synthesis and characterization of oxonitridosilicate phosphates Sr3SiP3O2N7, Sr5Si2P4ON12, and Sr16Si9P9O7N33 as the first of their kind. These compounds were synthesized under high‐temperature (1400 °C) and high‐pressure (3 GPa) conditions. A unique structural feature is their common fundamental building unit, a vierer single chain of (Si, P)(O, N)4 tetrahedra. All tetrahedra comprise substitutional disorder which is why we refer to it as the fundamental disorder unit (FDU). We classified four … Show more

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Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺

Engelsberger,

Pritzl,

Steinadler

et al. 2024

Chemistry A European J

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The structural variability of a compound class is an important criterion for the research into phosphor host lattices for phosphor‐converted light‐emitting diodes (pc‐LEDs). Especially, nitridophosphates and the related class of imidonitridophosphates are promising candidates. Recently, the ammonothermal approach has opened a systematic access to this substance class with larger sample quantities. We present the successful ammonothermal synthesis of the imidonitridophosphate Ba4P4N8(NH)2:Eu2+. Its crystal structure is solved by X‐ray diffraction and it crystallizes in space group Cc (no. 9) with lattice parameters a = 12.5250(3), b = 12.5566(4), c = 7.3882(2) Å and β = 102.9793(10)°. For the first time, adamantane‐type (imido)nitridophosphate anions [P4N8(NH)2]8− are observed next to metal ions other than alkali metals in a compound. The presence of imide groups in the structure and the identification of preferred positions for the hydrogen atoms are performed using a combination of quantum chemical calculations, Fourier‐transform infrared, and solid‐state NMR spectroscopy. Eu2+ doped samples exhibit cyan emission (λmax = 498 nm, fwhm = 50 nm/1981 cm−1) when excited with ultraviolet light with an impressive internal quantum efficiency (IQE) of 41 %, which represents the first benchmark for imidonitridophosphates and is promising for potential industrial application of this compound class.

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Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺

Engelsberger,

Pritzl,

Steinadler

et al. 2024

Chemistry A European J

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show abstract

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The Fundamental Disorder Unit in (Si, P)−(O, N) Networks

Cited by 1 publication

References 58 publications

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺

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The Fundamental Disorder Unit in (Si, P)−(O, N) Networks

Cited by 1 publication

References 58 publications

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba4P4N8(NH)2:Eu2+

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba4P4N8(NH)2:Eu2+

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Product

Resources

About

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺

Ammonothermal Synthesis of Luminescent Imidonitridophosphate Ba₄P₄N₈(NH)₂:Eu²⁺