Title :
Exothermic Surface Reactions on Sintered Graphite Upon Exposure to CO2 Plasma Created in Microwave Discharge
Author :
Vesel, Alenka ; Balat-Pichelin, Marianne
Author_Institution :
Jozef Stefan Inst., Ljubljana, Slovenia
Abstract :
Microwave (MW) discharges in a resonant cavity are suitable for sustaining gaseous plasma. An appropriate matching allows for optimization of discharge efficiency so the MW power is used for heating plasma in a small volume where a sample is placed. Such concentrated power dissipation allows for creation of gaseous plasma with high dissociation and moderate ionization fractions. In the case when plasma is created in CO2 atmosphere, the molecules are highly dissociated and O radicals interact chemically with sintered graphite causing significant etching. Both chemical and physical surface interactions induce extensive heating of samples so such a discharge is suitable for modification of solid materials at elevated temperatures.
Keywords :
carbon compounds; free radicals; graphite; high-frequency discharges; plasma materials processing; sintering; C; CO2; CO2 atmosphere; CO2 plasma; MW power; O radicals; chemical surface interaction; concentrated power dissipation; exothermic surface reactions; gaseous plasma; ionization fractions; microwave discharge; physical surface interaction; resonant cavity; sintered graphite; solid materials; Cavity resonators; Discharges (electric); Graphite; Heating; Materials; Plasma temperature; High-temperature techniques; plasma materials processing; surface treatment; surface treatment.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2311155
