Structural stability and mutual transformations of molybdenum carbide, nitride and phosphide

The structural stability and transformations of Mo carbide, nitride and phosphide were investigated under various atmosphere conditions by X-ray diffraction (XRD). The results indicated that the order of structural stability of these Mo-based compounds was as follows: Mo2N < Mo2C < MoP. Both Mo2C and Mo2N can be transformed to MoP, whereas the reverse transformations did not occur. Noticeably, compared with those Mo sources containing oxygen, the use of Mo2C/Mo2N as Mo-source can produce finely dispersed MoP nanoparticles by the temperature-programmed reaction (TPR) method. The result was probably due to the fact that lower-levels H2O generated during synthesis process can avoid strong hydrothermal sintering. The influence of formation energy had been considered and was found to relate to the structural stability and transformations of these Mo-based compounds.

Both Mo2C and Mo2N can be transformed to MoP, whereas the reverse changes are inviable, which is used to develop a promising and practical pathway for preparing MoP nanoparticles.Figure optionsDownload as PowerPoint slideHighlights
► Mo carbide, nitride and phosphide are prepared.
► The structural stability increases in the order of Mo2N < Mo2C < MoP.
► Both Mo2C and Mo2N can be transformed to MoP, whereas the reverse changes are inviable.
► This study develops a promising and practical pathway for preparing MoP nanoparticles.