| 1 - 46 |
Dielectric-barrier discharges: Their history, discharge physics, and industrial applications
Kogelschatz U |
| 47 - 57 |
Design and operating characteristics of a simple and reliable DBD reactor for use with atmospheric air
Francke KP, Rudolph R, Miessner H |
| 59 - 68 |
The mutual conversion of CO2 and CO in dielectric barrier discharge (DBD)
Zheng GY, Jiang JM, Wu YP, Zhang RX, Hou HQ |
| 69 - 82 |
Starch-enhanced synthesis of oxygenates from methane and carbon dioxide using dielectric-barrier discharges
Zou JJ, Zhang YP, Liu CJ, Li Y, Eliasson B |
| 83 - 102 |
Model of the negative DC corona plasma: Comparison to the positive DC corona plasma
Chen JH, Davidson JH |
| 103 - 116 |
Spatial electron relaxation: Comparison of Monte Carlo and Boltzmann equation results
Sigeneger F, Dyatko NA, Winkler R |
| 117 - 140 |
On the use of global kinetics models for the investigation of energy deposition and chemistry in RF argon-oxygen plasmas working in the torr regime
Morscheidt W, Hassouni K, Bauduin N, Arefi-Khonsari F, Amouroux J |
| 141 - 157 |
Difference in conversions between dimethyl sulfide and methanethiol in a cold plasma environment
Tsai CH, Lee WJ, Chen CY, Tsai PJ, Fang GC, Shih ML |
| 159 - 173 |
The effect of vibrational excitation of molecules on plasmachemical reactions involving methane and nitrogen
Savinov SY, Lee H, Song HK, Na BK |
| 175 - 182 |
Some mechanisms of SiO2 micro-tubes formation in plasma jet
Bica I |
| 183 - 183 |
Electron density and energy distributions in the positive DC corona: Interpretation for corona-enhanced chemical reactions (vol 22, pg 199, 2002)
Chen J, Davidson JH |
