In Situ Analyses of Surface-Layer Composition of CxNy Thin Films Using Methods Based on Penning Ionization Processes-Introductory Investigations

Carbon nitride materials have received much attention due to their excellent tribological, mechanical and optical properties. It was found that these qualities depend on the N/C ratio; therefore, the possibility to control it in situ in the sputtered film is of high importance. The plasma-electron s...

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Bibliographic Details
Published in:Materials 2021-12, Vol.14 (24), p.7812
Main Authors: Grigorian, Galina, Konkol, Izabela, Cenian, Adam
Format: Article
Language:English
Subjects:
Carbon
Carbon nitride
Composition
Distribution functions
Electric fields
Electron energy distribution
Energy
Gas discharge tubes
Gas pressure
Glow discharges
Helium
Inspection
Investigations
Lasers
Membrane separation
Methane
Methods
Nitrogen
NMR
Nuclear magnetic resonance
Optical properties
Penning ionization
Plasma
Spectrum analysis
Sputtering
Surface layers
Thin films
Tribology
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Summary:Carbon nitride materials have received much attention due to their excellent tribological, mechanical and optical properties. It was found that these qualities depend on the N/C ratio; therefore, the possibility to control it in situ in the sputtered film is of high importance. The plasma-electron spectroscopy method based on the Penning ionization process analysis is developed here to control this ratio in CN films produced by plasma-sputtering in a pulsed-periodic regime of glow discharge. The electron energy distribution function is determined by the means of a single Langmuir probe placed in the center of the discharge tube. The mixture N :CH :He was used in the process of sputtering. The applied concentrations of CH varied in the range of 2-8%, and He concentration was 80-90%. The gas pressure in the discharge tube used for sputtering varied between 1 and 10 Torr, and the current was between 10 and 50 mA. It was shown that the proposed method enables the extraction of information on the composition of the surface layer of the investigated film and the development of an on-line inspection, without extracting the film from the sputtering chamber.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma14247812