Article

Plasma Investigations
2011. V. 49. № 3. P. 349–355
Bronin S.Ya., Emelianov A.V., Eremin A.V., Khrapak A.G.
Investigation of the Kinetics of Carbon Nanoparticle Charging in Shock-Heated Plasma ъ
Annotation
The experimental results and a computer simulation of charging of carbon nanoparticles formed in the process of pyrolysis of the carbon suboxide $\mathrm{C}_3$$\mathrm{O}_2$ behind shock waves are presented. It is shown that the time necessary for the onset of an equilibrium distribution of charges in the gas–nanoparticle system at pressures of $15$--$30$~bar decreases from $400$ to $40$~s with a temperature rise from $2000$ to $3600$ K. The equilibrium concentration of free electrons in the presence of nanoparticles in the mixture is much lower than that in the same gas without particles. Step ionization of sodium and a subsequent recombination of free electrons and sodium ions on the nanoparticle surface are considered in order to analyze the kinetics of nanoparticle charging.
Article reference:
Bronin S.Ya., Emelianov A.V., Eremin A.V., Khrapak A.G. Investigation of the Kinetics of Carbon Nanoparticle Charging in Shock-Heated Plasma ъ, High Temp., 2011. V. 49. № 3. P. 349