2023
DOI: 10.1002/chem.202301241
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A Novel Nitridoborate Hydride Sr13[BN2]6H8 Elucidated from X‐ray and Neutron Diffraction Data

Abstract: Metal hydrides are an uprising compound class bringing up various functional materials. Due to the low X‐ray scattering power of hydrogen, neutron diffraction is often crucial to fully disclose the structural characteristics thereof. We herein present the second strontium nitridoborate hydride known so far, Sr13[BN2]6H8, formed in a solid‐state reaction of the binary nitrides and strontium hydride at 950 °C. The crystal structure was elucidated based on single‐crystal X‐ray and neutron powder diffraction in th… Show more

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Cited by 5 publications
(19 citation statements)
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“…Using the DMFIT program, values for the quadrupolar coupling constant (3.28 MHz) and the asymmetry parameter (0.05) were obtained as well as an isotropic chemical shift of 24.3 ppm [46] . Considering a N−B−N bond angle of 169.4°, these results fit nicely into the series of NMR parameters reported so far for nearly linear [BN 2 ] 3− units in other nitridoborates [24,47] …”
Section: Formula Sr6n[bn2]2h3 Sr6n[11bn2]2d3supporting
confidence: 71%
“…Using the DMFIT program, values for the quadrupolar coupling constant (3.28 MHz) and the asymmetry parameter (0.05) were obtained as well as an isotropic chemical shift of 24.3 ppm [46] . Considering a N−B−N bond angle of 169.4°, these results fit nicely into the series of NMR parameters reported so far for nearly linear [BN 2 ] 3− units in other nitridoborates [24,47] …”
Section: Formula Sr6n[bn2]2h3 Sr6n[11bn2]2d3supporting
confidence: 71%
“…The calculated electronic band structure (Figure S11, left) reveals a direct band gap of 4.1 eV, which agrees with the transparent and colorless appearance of Sr 6 N[BN 2 ] 2 H 3 . Similarly to the two other nitridoborate hydrides Sr 2 BN 2 H and Sr 13 [BN 2 ] 6 H 8 , the projected density of states (Figure S11, right) shows nitrogen at the top of the valence band with small contributions of Sr. [24,26] Interestingly, since both N and Sr states contribute to the top of the valence band, covalent interactions of N with Sr are indicated. This is also suggested by bond overlap population analysis (see SI) which indeed reveal considerable overlap between the isolated N 3À and Sr 2 + .…”
Section: Methodsmentioning
confidence: 99%
“…Two of the Sr ions show a distorted octahedral coordination by two hydride and four nitrogen anions (Figure 2b), whereas the third Sr is found inside a Sr(N 5 B 2 H 3 ) polyhedron, as previously seen in Sr 13 [BN 2 ] 6 H 8 . [24] The coordination sphere of the [BN 2 ] 3À units can be described as a bicapped trigonal prism (Figure 2c) which is also found in β-Ba 3 [BN 2 ] 2 . [30] The [BN 2 ] 3À unit itself is slightly bent with an NÀ BÀ N angle of 169.4(5)°and shows NÀ B bond lengths of 1.329(7)-1.353 (7) Å, which are in good agreement with other known nitridoborates.…”
mentioning
confidence: 93%
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