Carbon nitride films were deposited at 20, 250 and 500C on 111: Si substrates by XeCl laser ablation of graphite in low pressure 1–50 Pa. N2 atmosphere at fluences of 12 and 16 Jrcm2. Different diagnostic techniques SEM, TEM, RBS, XPS, XRD. were used to characterize the deposited films. Films resulted plane and well adhesive to their substrates. NrC atomic ratios up to 0.7 were inferred from RBS measurements in films deposited at 208C and 16 Jrcm2. Nitrogen concentration increases with increasing ambient pressure and laser fluence. The N 1s peak of the XPS spectra indicate two different bonding states of nitrogen atoms to C atoms, while the C 1s peak, apart from the two bonding states to nitrogen atoms, indicates one bonding state with regard to carbon atoms. XRD and TEM analyses point to an oriented microcrystalline structure of the films. Heating of the substrate results in a lower nitrogen concentration in respect of films deposited at 208C in otherwise identical experimental conditions. Optical emission studies of the laser plasma plume indicate a correlation between the emission intensity of the CN radicals in the plume and the nitrogen atom concentration in the films.
Carbon Nitride Films Deposited by Reactive Laser Ablation
DE GIORGI, Maria Luisa;LUCHES, Armando;PERRONE, Alessio;
1998-01-01
Abstract
Carbon nitride films were deposited at 20, 250 and 500C on 111: Si substrates by XeCl laser ablation of graphite in low pressure 1–50 Pa. N2 atmosphere at fluences of 12 and 16 Jrcm2. Different diagnostic techniques SEM, TEM, RBS, XPS, XRD. were used to characterize the deposited films. Films resulted plane and well adhesive to their substrates. NrC atomic ratios up to 0.7 were inferred from RBS measurements in films deposited at 208C and 16 Jrcm2. Nitrogen concentration increases with increasing ambient pressure and laser fluence. The N 1s peak of the XPS spectra indicate two different bonding states of nitrogen atoms to C atoms, while the C 1s peak, apart from the two bonding states to nitrogen atoms, indicates one bonding state with regard to carbon atoms. XRD and TEM analyses point to an oriented microcrystalline structure of the films. Heating of the substrate results in a lower nitrogen concentration in respect of films deposited at 208C in otherwise identical experimental conditions. Optical emission studies of the laser plasma plume indicate a correlation between the emission intensity of the CN radicals in the plume and the nitrogen atom concentration in the films.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.