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Borate Hydrides as a New Material Class: Structure, Computational Studies, and Spectroscopic Investigations on Sr5 (BO3 )3 H and Sr5 (11 BO3 )3 D.


ABSTRACT: The unprecedented borate hydride Sr5 (BO3 )3 H and deuteride Sr5 (11 BO3 )3 D crystallizing in an apatite-related structure are reported. Despite the presence of hydride anions, the compound decomposes only slowly in air. Doped with Eu2+ , it shows broad-band orange-red emission under violet excitation owing to the 4f6 5d-4f7 transition of Eu2+ . The observed 1 H?NMR chemical shift is in good agreement with previously reported 1 H chemical shifts of ionic metal hydrides as well as with quantum chemical calculations and very different from 1 H chemical shifts usually found for hydroxide ions in similar materials. FTIR and Raman spectroscopy of different samples containing 1 H, 2 H, nat B, and 11 B combined with calculations unambiguously prove the absence of hydroxide ions and the sole incorporation of hydride ions into the borate. The orange-red emission obtained by doping with Eu2+ shows that the new compound class might be a promising host material for optical applications.

SUBMITTER: Wylezich T 

PROVIDER: S-EPMC7540042 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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Borate Hydrides as a New Material Class: Structure, Computational Studies, and Spectroscopic Investigations on Sr<sub>5</sub> (BO<sub>3</sub> )<sub>3</sub> H and Sr<sub>5</sub> (<sup>11</sup> BO<sub>3</sub> )<sub>3</sub> D.

Wylezich Thomas T   Valois Renaud R   Suta Markus M   Mutschke Alexander A   Ritter Clemens C   Meijerink Andries A   Karttunen Antti J AJ   Kunkel Nathalie N  

Chemistry (Weinheim an der Bergstrasse, Germany) 20200817 51


The unprecedented borate hydride Sr<sub>5</sub> (BO<sub>3</sub> )<sub>3</sub> H and deuteride Sr<sub>5</sub> (<sup>11</sup> BO<sub>3</sub> )<sub>3</sub> D crystallizing in an apatite-related structure are reported. Despite the presence of hydride anions, the compound decomposes only slowly in air. Doped with Eu<sup>2+</sup> , it shows broad-band orange-red emission under violet excitation owing to the 4f<sup>6</sup> 5d-4f<sup>7</sup> transition of Eu<sup>2+</sup> . The observed <sup>1</sup> H NM  ...[more]

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