Phenakite‐Type BeP₂N₄—A Possible Precursor for a New Hard Spinel‐Type Material

Abstract: BeP(2)N(4) was synthesized in a multi-anvil apparatus starting from Be(3)N(2) and P(3)N(5) at 5 GPa and 1500 degrees C. The compound crystallizes in the phenakite structure type (space group R3, no. 148) with a=1269.45(2) pm, c=834.86(2) pm, V=1165.13(4) x 10(6) pm(3) and Z=18. As isostructural and isovalence-electronic alpha-Si(3)N(4) transforms into beta-Si(3)N(4) at high pressure and temperature, we studied the phase transition of BeP(2)N(4) into the spinel structure type by using density functional theory … Show more

“…In this context, Ga 3 O 3 N 14 , c-Ge 3 N 4 15 and the hypothetical c-Fe 3 N 4 16 have been described in the literature. Another promising isoelectronic compound is BeP 2 N 4 which, under high pressure, might form a spinel-type phase with interesting properties as well 1 . Furthermore, spinel-type BeP 2 N 4 would contain an unprecedented coordination geometry for phosphorus atoms, namely PN 6 octahedra which have only been predicted in the hypothetical δ-P 3 N 5 17 .…”

“…Accordingly, it would be extremely exiting if the spinel-type phase of BeP 2 N 4 with P at the octahedral site could be synthesized and its physical properties could be explored. Recently, density-functional theory based ab initio calculations have supported the possible existence of a spinel-type phase of BeP 2 N 4 at pressures around 24 GPa which are attainable by state-of-the-art high-pressure experimental techniques 1 . High-pressure polymorphs of related polymeric and covalent nitrides (e. g. γ-Si 3 N 4 12, 13 or γ-P 3 N 5 18 ) which were typically synthesized at higher temperatures turned out to be quenchable.…”

“…The calculation of the physical properties for BeP 2 N 4 is based on the experimentally determined structure for the phenakite-type phase and the density functional theory [DFT] predicted structure for the spinel-type phase 1 . Because the experimentally determined structure for the phenakite-type phase using Rietveld refinement on powdered samples may be less accurate, the theoretically refined structure for the phenakite-type BeP 2 N 4 is also used for the electronic structure and bonding calculations 1 .…”

Electronic structure and physical properties of the spinel-type phase of BeP2N4from all-electron density functional calculations

“…In this context, Ga 3 O 3 N 14 , c-Ge 3 N 4 15 and the hypothetical c-Fe 3 N 4 16 have been described in the literature. Another promising isoelectronic compound is BeP 2 N 4 which, under high pressure, might form a spinel-type phase with interesting properties as well 1 . Furthermore, spinel-type BeP 2 N 4 would contain an unprecedented coordination geometry for phosphorus atoms, namely PN 6 octahedra which have only been predicted in the hypothetical δ-P 3 N 5 17 .…”

“…Accordingly, it would be extremely exiting if the spinel-type phase of BeP 2 N 4 with P at the octahedral site could be synthesized and its physical properties could be explored. Recently, density-functional theory based ab initio calculations have supported the possible existence of a spinel-type phase of BeP 2 N 4 at pressures around 24 GPa which are attainable by state-of-the-art high-pressure experimental techniques 1 . High-pressure polymorphs of related polymeric and covalent nitrides (e. g. γ-Si 3 N 4 12, 13 or γ-P 3 N 5 18 ) which were typically synthesized at higher temperatures turned out to be quenchable.…”

“…The calculation of the physical properties for BeP 2 N 4 is based on the experimentally determined structure for the phenakite-type phase and the density functional theory [DFT] predicted structure for the spinel-type phase 1 . Because the experimentally determined structure for the phenakite-type phase using Rietveld refinement on powdered samples may be less accurate, the theoretically refined structure for the phenakite-type BeP 2 N 4 is also used for the electronic structure and bonding calculations 1 .…”

Electronic structure and physical properties of the spinel-type phase of BeP2N4from all-electron density functional calculations

“…[25][26][27][28] Ein Doppelnitrid ist allerdings nicht direkt mit einem Doppeloxid vergleichbar, da sich Letzteres auf Kationen mit ähnlicher Elektronegativitätbezieht. [25][26][27][28] Ein Doppelnitrid ist allerdings nicht direkt mit einem Doppeloxid vergleichbar, da sich Letzteres auf Kationen mit ähnlicher Elektronegativitätbezieht.…”

Nitridophosphate – eine Erfolgsgeschichte der Nitridsynthese

“…[15,16] Theo utstanding materials properties of non-metal nitrides are even surpassed by those of their respective high-pressure polymorphs such as c-BN, g-P 3 N 5 ,a nd g-Si 3 N 4 ,w hich feature improved mechanical properties such as increased hardness and bulk moduli. [19] Thus,t ransitions from ambient-pressure to high-pressure polymorphs involve fundamental changes in both the structural and materials properties and are of fundamental interest for high-pressure and materials sciences as well as inorganic chemistry. [19] Thus,t ransitions from ambient-pressure to high-pressure polymorphs involve fundamental changes in both the structural and materials properties and are of fundamental interest for high-pressure and materials sciences as well as inorganic chemistry.…”

Rivalry under Pressure: The Coexistence of Ambient‐Pressure Motifs and Close‐Packing in Silicon Phosphorus Nitride Imide SiP₂N₄NH