The Long-Periodic Loop-Branched Chain Structure of the Oxonitridophosphate La21 P40 O46 N57 , Elucidated by a Combination of TEM and Microfocused Synchrotron Radiation

Abstract

The lanthanum oxonitridophosphate La₂₁ P₄₀ O₄₆ N₅₇ was synthesized by high-pressure metathesis from partially hydrolysed LiPN₂ and LaCl₃ at 750-950 °C and 7-9 GPa. The combination of transmission electron microscopy (TEM) and diffraction using microfocused synchrotron radiation revealed a monoclinic crystal structure (space group P2₁ /n, a=14.042(4), b=7.084(3), c=41.404(10) Å, β=97.73(3)° and Z=2), which is characterized by loop-branched 21 member single chains of P(O,N)₄ tetrahedra that extend along [2 0 1]. These chains are related to the loop-branched dreier single chains with dreier-ring loops in stillwellite (CeBSiO₅ ). In La₂₁ P₄₀ O₄₆ N₅₇ , these chains are characterized by a complex long-periodic conformation and exhibit disorder that involves La/N and P split positions. This is an extraordinarily long periodicity with respect to branched single chains of tetrahedra. La₂₁ P₄₀ O₄₆ N₅₇ constitutes the first rare-earth oxonitridophosphate exhibiting a chain structure. Single-crystal data are consistent with electron and powder X-ray diffraction.

Keywords: chain structures; high-pressure/high-temperature chemistry; metathesis; microcrystals; rare-earth oxonitridophosphate.