P. Taras scite author profile

We studied lithium azide (LiN(3)) by x-ray diffraction and Raman spectroscopy at hydrostatic compression up to pressures above 60 GPa at room temperature. The results of x-ray diffraction analyses reveal the stability of the ambient-pressure C 2/m crystal structure up to the highest pressure. The pressure dependence of librational modes provides evidence for an order-disorder transition at low pressures (below 3 GPa), similar to the transition observed previously at low temperatures. The observed structure stability indicates that this transition is not associated with structural changes. The phase stability of LiN(3) is in contrast to that of sodium azide (which is isostructural at ambient pressure), for which a set of phase transitions has been reported at pressures below 50 GPa.

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M(BH₃NH₂BH₂NH₂BH₃) – the missing link in the mechanism of the thermal decomposition of light alkali metal amidoboranes

Fijałkowski

Jaroń

Leszczyński

et al. 2014

Phys. Chem. Chem. Phys.

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We report a novel family of hydrogen-rich materials - alkali metal di(amidoborane)borohydrides, M(BH3NH2BH2NH2BH3). The title compounds are related to metal amidoboranes (amidotrihydroborates) but have higher gravimetric H content. Li salt contains 15.1 wt% H and discharges very pure H2 gas. Differences in thermal stability between amidoboranes and respective oligoamidoboranes explain the release of the ammonia impurity (along with H2) during the thermal decomposition of light alkali amidoboranes, LiNH2BH3, NaNH2BH3 and NaLi(NH2BH3)2, and confirm the mechanism of the side decomposition reaction.

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P. Taras

Electronic and magnetic phase diagram of β-Fe1.01Se with superconductivity at 36.7 K under pressure

Phase stability of lithium azide at pressures up to 60 GPa

M(BH₃NH₂BH₂NH₂BH₃) – the missing link in the mechanism of the thermal decomposition of light alkali metal amidoboranes

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P. Taras

Electronic and magnetic phase diagram of β-Fe1.01Se with superconductivity at 36.7 K under pressure

Phase stability of lithium azide at pressures up to 60 GPa

M(BH3NH2BH2NH2BH3) – the missing link in the mechanism of the thermal decomposition of light alkali metal amidoboranes

Contact Info

Product

Resources

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M(BH₃NH₂BH₂NH₂BH₃) – the missing link in the mechanism of the thermal decomposition of light alkali metal amidoboranes