The reactive sputter deposition of TiN thin films onto glass substrate at the ambient
temperature using a homemade broad beam argon ion source was investigated in order to deposit
the films with nanostructural characteristics. While constant Ar beam energy of 2 keV was used, the
N2 partial pressure and the substrate current, adjusted by different accelerator grid potentials (Vacc)
were varied. A negative substrate bias voltage (100 V) was additionally applied. The TiN film
structure was investigated by XRD and STM methods. All deposited films exhibited (220) preferred
orientation, and the change in normalized peak intensity (I220/d), lattice spacing (d220) and full-with
at half-maximum (FWHM) were investigated. As a result of higher energy bombardment with 100
V negative substrate bias, compared to the substrate current change with Vacc, nearly constant (220)
peak broadening with the increase of N2 partial pressure was obtained. The measured grain diameter
(STM and XRD) confirms that the grain size is less than 12 nm, and the (220) preferred orientation
was disturbed but not destructed.