Correlation between photoluminescence, optical and structural properties of amorphous nitrogen-rich carbon nitride films

Abstract

Amorphous nitrogen-rich carbon nitride (CNx) films have been prepared by inductively coupled plasma chemical vapour deposition (ICP-CVD) utilizing transport reactions from a solid carbon source. The nitrogen atomic fraction N/(C+N) is about 1 or even higher as detected by various surface and bulk sensitive methods. An investigation of the chemical bonding structure showed that the films are composed of >C=N units with a small fraction of C≡N groups. Based on these findings, several structural units derived from cis- and trans-conjugated carbon–nitrogen chains are proposed. The optical properties of the CNx films were studied by transmission spectroscopy and spectral ellipsometry; the optical Tauc gap was determined to 2.1±0.05 eV. The photoluminescence characteristics were measured at three different excitation wavelengths (476, 488 and 515 nm) and revealed two individual contributions. These data are interpreted in terms of the different structural units comprising the nitrogen-rich CNx films.