Phase formation, thermal stability and magnetic moment of cobalt nitride thin films

Abstract

Cobalt nitride (Co-N) thin films prepared using a reactive magnetron sputtering process by varying the relative nitrogen gas flow () are studied in this work. As ~increases, Co(N), , Co3N and CoN phases are formed. An incremental increase in , after emergence of ~phase at =10, results in a continuous expansion in the lattice constant (a) of . For =30, a maximizes and becomes comparable to its theoretical value. An expansion in a of , results in an enhancement of magnetic moment, to the extent that it becomes even larger than pure Co. Though such higher (than pure metal) magnetic moment for Fe4N thin films have been theoretically predicted and evidenced experimentally, higher (than pure Co) magnetic moment are evidenced in this work and explained in terms of large-volume high-moment model for tetra metal nitrides.