Optical gap in carbon nitride films

In this paper we study the effect of introducing nitrogen into different carbon networks. Two kinds of carbon nitride films were deposited: (a) Using a DC-magnetron sputtering system sp bonded carbon nitride (a-CN) films were deposited and (b) Using a 2 combination of filtered cathodic vacuum arc and a low-pressure N plasma source, N was introduced into sp carbon networks 3 2 (ta-C), leading to the formation of a more dense CN film named ta-CN. For ta-CN films we found that the optical gap initially decreases as the N content and the sp fraction rises, but above a certain N quantity there is a level-off of the value, and the gap 2 then remains constant despite further increases in the fraction and clustering of the sp phase. However, for a-CN films the optical 2 gap increases with the nitrogen content. These two different trends are not easily explained using the same framework as that for carbon films, in which any decrease in the band gap is associated to an increase in the sp fraction or its clustering. Here we 2 discuss the conditions that lead to high optical gap in sp -bonded carbon nitride samples, which are clearly not associated to the 2 presence of any crystalline super-hard phase. We also compared other differences in properties observed between the two films, such as deposition rate, infrared and Raman spectra. 2003 Elsevier Science B.V. All rights reserved.