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Boron Phosphorus Nitride at Extremes: PN 6 Octahedra in the High‐Pressure Polymorph β‐BP 3 N 6
Author(s) -
Vogel Sebastian,
Bykov Maxim,
Bykova Elena,
Wendl Sebastian,
Kloß Simon D.,
Pakhomova Anna,
Chariton Stella,
Koemets Egor,
Dubrovinskaia Natalia,
Dubrovinsky Leonid,
Schnick Wolfgang
Publication year - 2019
Publication title -
angewandte chemie international edition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.831
H-Index - 550
eISSN - 1521-3773
pISSN - 1433-7851
DOI - 10.1002/anie.201902845
Subject(s) - octahedron , nitride , materials science , crystallography , boron nitride , crystal structure , isothermal process , high pressure , bulk modulus , ambient pressure , diffraction , chemistry , thermodynamics , nanotechnology , physics , layer (electronics) , optics , composite material
Abstract The high‐pressure behavior of non‐metal nitrides is of special interest for inorganic and theoretical chemistry as well as materials science, as these compounds feature intriguing elastic properties. The double nitride α‐BP 3 N 6 was investigated by in situ single‐crystal X‐ray diffraction (XRD) upon cold compression to a maximum pressure of about 42 GPa, and its isothermal bulk modulus at ambient conditions was determined to be 146(6) GPa. At maximum pressure the sample was laser‐heated, which resulted in the formation of an unprecedented high‐pressure polymorph, β‐BP 3 N 6 . Its structure was elucidated by single‐crystal XRD, and can be described as a decoration of a distorted hexagonal close packing of N with B in tetrahedral and P in octahedral voids. Hence, β‐BP 3 N 6 is the first nitride to contain PN 6 octahedra, representing the much sought‐after proof of principle for sixfold N‐coordinated P that has been predicted for numerous high‐pressure phases of nitrides.