| Core Reference papers | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Plasma Chemistry, 5.7 Complete CO2 Dissociation In Plasma With Production Of Carbon And Oxygen | 2008 | Fridman, A. A. | ||||||||
The physics of a chemically active plasma with non-equilibrium vibrational excitation of molecules | https://doi.org/10.1070/PU1981v024n06ABEH004884 | 1981 | Rusanov, V.D, Fridman, A. A., Sholin, G. V. | 'Here the process is complicated by the influence of the strong reverse reaction CO_2*+ C -> 2CO , ref 123 — 2CO, 123 which can be suppressed only if the discharge parameters are precision-adjusted in such a way as to ensure heterogeneous stabilization of the carbon on the discharge-chamber walls. ref 11 457572372, discussion in ref 69' 'parameters obtained experimentally for medium-pressure systems in MW discharge w/ magnetic field under cyclotron resonance conditions - eq 2.31 & reduction of carbon were obtained.79457572372' 69 V. A. Legasov, V. D. Rusanov, and A. A. Fridman, in: Khimiya plazmy (Plasma Chemistry), No. 5 (ed. Β. Μ. Smirnov), Atomizdat, Moscow, 1978." | ||||||
Non-Equilibrium Processes in the Plasma-Chemical UHF-Reactor with Magnetik Field | https://www.ispc-conference.org/ispcdocs/ispc3/content/3/03-G.5.1.pdf | 1977 | Azizov, R.I., Zhivotov, V.K., Krotov, M.F., Rusanov, V.K., Tarasov, Yu. Y. | non equilibrium uhf discharge, computer simulation, 5-200 Torr, electron cyclotron resonance ( 𝛌 = 8mm, H=12k0e) | ||||||
| Non-equilibrium plasma-chemical reactions in high pressure systems provided by vibrationnally excited reagents. | https://www.ispc-conference.org/ispcdocs/ispc3/content/3/03-G.5.18.pdf | 1977 | V.A. Legasov, V.D. Rusanov, A.A. Fridman, G.V. Sholin | High pressure (≳ 1atm) reduction of CO2 via CO+CO → C + CO2 by vibrationally exciting the CO2 molecules | ||||||
| Carbon Dioxide Dissociation in Non-Equilibrium Plasma | http://www.ispc-conference.org/ispcdocs/ispc5/content/5/05-0774.pdf | 1981 | Asisov R.I., Fridman A.A., Givotov V.K., Karesheninnikov E.G., Patrushev B.I., Potapkin B.V., Rusanov V.D., Krotov M.F. | CO2 -> CO + 1/2 O2 dissociation a up to 90% efficiency w/ Microwave supersonic gas flow, citing CO2 vibrational modes aid in efficiency, referenced by Plasma Chemistry and others | ||||||
| Kinetic Theory of Plasmachemical Reactions of Vibrationally excited molecules | http://www.ispc-conference.org/ispcdocs/ispc5/content/5/05-0052.pdf | 1981 | A.V. Demura, S.O. Macheret, B.V. Potapkin, V.D. Rusanov, A.A. Fridman, G.V. Sholin | |||||||
Direct dioxygen evolution in collisions of carbon dioxide with surfaces | https://www.nature.com/articles/s41467-019-10342-6 | 2019 |
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