Conversion of CO2 in He RF plasmas
EP2
- Excitation and dissociation of CO2 heavily diluted in noble gas atmospheric pressure plasmas
Datasets
1026 results
Conversion of CO2 in Ar plasmas
EP2
- Excitation and dissociation of CO2 heavily diluted in noble gas atmospheric pressure plasmas
Conversion of CO2 in He/Ar RF plasmas
EP2
- Excitation and dissociation of CO2 heavily diluted in noble gas atmospheric pressure plasmas
Figure 6 data: Temporal evolutions of Voltage (black), current (red) and emission (blue)
EP2
- Modular constructed metal-grid arrays - an alternative to silicon-based microplasma devices for catalytic applications
Figure 10 Data: Wave velocity pressure variation
EP2
- Modular constructed metal-grid arrays - an alternative to silicon-based microplasma devices for catalytic applications
Figure 4 data Phase angle voltage dependence
COST-Jet
- Comparison of electron heating and energy loss mechanisms in an RF plasma jet operated in argon and helium
Figure 8 data: phase-resolved emission plots
COST-Jet
- Comparison of electron heating and energy loss mechanisms in an RF plasma jet operated in argon and helium
Figure 8 Data: Expansion width; pressure variation
EP2
- Modular constructed metal-grid arrays - an alternative to silicon-based microplasma devices for catalytic applications
Figure 7 data: Bulk and sheath width as function of dissipated power
COST-Jet
- Comparison of electron heating and energy loss mechanisms in an RF plasma jet operated in argon and helium
Figure 3 Data Power dissipation voltage dependence
COST-Jet
- Comparison of electron heating and energy loss mechanisms in an RF plasma jet operated in argon and helium