Abstract
The electronic structure of the hexagonal
β
-
Nb
2
N
, hexagonal
δ
′
-NbN, and cubic
δ
-NbN thin films have been investigated by x-ray photoemission spectroscopy. Calculated density of states for these phases are also presented and used in the interpretation of the experimental valence band spectra. The experimental energy distribution curves are consistent with the calculated densities of states. Comparing hexagonal to cubic phases, both
β
-
Nb
2
N
and
δ
′
-NbN are more covalent than the cubic phase NbN. Prominent covalent bonding in hexagonal
β
-
Nb
2
N
and
δ
′
-NbN nitrides can be related with the higher hardness values as compared to that of the cubic phase. This study discloses relevant observations important for both the technological applications and fundamental properties.