Structural, electrical, and optical properties of amorphous carbon nitride films prepared using a hybrid deposition technique

Abstract

Amorphous carbon nitride (a-CNx) thin films were prepared using a hybrid deposition technique (HDT), which is a combination of RF and DC magnetron co-sputtering of a graphite target. We varied the nitrogen gas flow ratio (GFR, N2/N2+Ar) during deposition to prepare a-CNx films with various nitrogen concentrations. The film properties were characterized using X-ray photoelectron spectroscopy (XPS) and Raman spectroscopy. The optical and electrical properties were also investigated. For 0.3<GFR<1, the optical band gap and resistivity increased with increasing nitrogen concentration (x=N/C) and sp3 C–N bonding fraction in the films. Compared to carbon nitride films with a comparable nitrogen content prepared by RF and DC sputtering, the optical band gap and resistivity of a-CNx films prepared by HDT were narrower and lower, respectively.