Preparation and process investigation of molybdenum carbide and their N-doped analogue by calcination

The crystal structure of Mo₂C can be derived from close packed Mo atoms with partial occupation of C atoms in the octahedral interstices. Mo₂C and MoC were successfully synthesized by calcinaiton of the lab-made precursor containing 1,8-diaminonaphthalene and ammonium molybdate at carbon/molybdenum ratio of 2.0, 2.25, 2.7 and 4.5, respectively. High temperature XRD was used in the formation process study of Mo₂C, which presents MoO₂ as an important intermediate in formation of Mo₂C. A reduction of the carbon/molybdenum ratio to 1.8 in the precursor caused shifts of XRD reflections in Mo₂C-0.4. Rietveld refinement of the XRD reflections of Mo₂C-0.4 reveals a partial nitrogen substitution of carbon atoms in Mo₂C, which is confirmed by the theoretical calculation. The theoretical carbon and nitrogen contents of Mo₂N_0.6C_0.4 agree with the experimental carbon and nitrogen content results of Mo₂C-0.4 from element analysis. This confirms the substitution of carbon by nitrogen in the Mo₂C lattice.