| 1 - 2 |
Plasma Technology and Catalysis - International Symposium held as part of the 225th ACS National Meeting, New Orleans, LA (USA), March 23-27, 2003
Jang BWL, Hammer T, Liu CJ |
| 3 - 3 |
Bernie Penetrante - Obituary
Barlow S, Fisher G, Hammer T, Hoard J, Jang B, Liu CJ, Orlando T, Peden C, Tonkyn R |
| 5 - 14 |
Plasma catalytic hybrid processes: gas discharge initiation and plasma activation of catalytic processes
Hammer T, Kappes T, Baldauf M |
| 15 - 20 |
Some temperature effects on stability and carbon formation in low temperature ac plasma conversion of methane
Le H, Lobban LL, Mallinson RG |
| 21 - 25 |
Plasma catalytic conversion of methane into syngas: the combined effect of discharge activation and catalysis
Heintze M, Pietruszka B |
| 27 - 33 |
Synthesis gas production via dielectric barrier discharge over Ni/gamma-Al2O3 catalyst
Song HK, Choi JW, Yue SH, Lee H, Na BK |
| 35 - 45 |
Metal effect and flow rate effect in the hydrogen production from methane
Spiess FJ, Suib SL, Irie K, Hayashi Y, Matsumoto H |
| 47 - 55 |
Diagnosis of atmospheric pressure low temperature plasma and application to high efficient methane conversion
Kado S, Sekine Y, Nozaki T, Okazaki K |
| 57 - 65 |
Dissociation of vibrationally excited methane on Ni catalyst - Part 1. Application to methane steam reforming
Nozaki T, Muto N, Kado S, Okazaki K |
| 67 - 74 |
Dissociation of vibrationally excited methane on Ni catalyst - Part 2. Process diagnostics by emission spectroscopy
Nozaki T, Muto N, Kadio S, Okazaki K |
| 75 - 81 |
Oxidation of 2-heptanone in air by a DBD-type plasma generated within a honeycomb monolith supported Pt-based catalyst
Ayrault C, Barrault J, Blin-Simiand N, Jorand F, Pasquiers S, Rousseau A, Tatibouet JM |
| 83 - 88 |
Oxidation of propene and the formation of methyl nitrate in non-thermal plasma discharges
Orlandini I, Riedel U |
| 89 - 95 |
Synergistic effect of silent discharge plasma and catalysts on benzene decomposition
Futamura S, Einaga H, Kabashima H, Hwan LY |
| 97 - 102 |
Oxidative dehydrogenation of ethane with CO2 over catalyst under pulse corona plasma
Zhang XL, Zhu AM, Li XH, Gong WM |
| 103 - 107 |
Basic study for gas cleaning using discharge and electrophoresis
Su ZZ, Sawada J, Takashima K, Katsura S, Mizuno A |
| 109 - 115 |
Abatement of perfluorocarbons with combined plasma catalysis in atmospheric-pressure environment
Chang MB, Lee HM |
| 117 - 126 |
Plasma-catalyst interactions in the treatment of volatile organic compounds and NOx with pulsed corona discharge and reticulated vitreous carbon Pt/Rh-coated electrodes
Kirkpatrick MJ, Finney WC, Locke BR |
| 127 - 133 |
NOx removal from a flue gas in a corona discharge-catalyst hybrid system
Dors M, Mizeraczyk J |
| 135 - 141 |
Non-thermal plasma-assisted NOx reduction over alkali and alkaline earth ion exchanged Y, FAU zeolites
Kwak JH, Szanyi J, Peden CHF |
| 143 - 150 |
Combination of low and high temperature catalytic materials to obtain broad temperature coverage for plasma-facilitated NOx reduction
Rappe KG, Hoard JW, Aardahl CL, Park PW, Peden CHF, Tran DN |
| 151 - 157 |
The reactions of NO2 and CH3CHO with Na-Y zeolite and the relevance to plasma-activated lean NOx catalysis
Orlando TM, Alexandrov A, Lebsack A, Herring J, Hoard JW |
| 159 - 167 |
Recombination of oxygen atomic excited states produced by non-equilibrium RF plasma on different semiconductor materials: catalytic phenomena and modelling
Guyon C, Cavadias S, Mabille I, Moscosa-Santillan M, Amouroux J |
| 169 - 176 |
Microwave plasma assisted preparation of disperse chromium oxide supported catalysts Influence of the microwave plasma treatment on the properties of the supports
Dittmar A, Kosslick H, Herein D |
| 177 - 182 |
Application of a dihydrogen afterglow to the preparation of zeolite-supported metallic nanoparticles
Legrand JC, Diamy AM, Riahi G, Randriamanantenasoa Z, Polisset-Thfoin M, Fraissard J |
| 183 - 191 |
Partial oxidation of methane to syngas over glow discharge plasma treated Ni-Fe/Al2O3 catalyst
Wang JG, Liu CJ, Zhang YP, Yu KL, Zhu XL, He F |
| 193 - 200 |
Plasma-assisted reduction of supported metal catalyst using atmospheric dielectric-barrier discharge
Kim SS, Lee H, Na BK, Song HK |
| 201 - 204 |
New palladium catalysts prepared by glow discharge plasma for the selective hydrogenation of acetylene
Chen MH, Chu W, Dai XY, Zhang XW |
| 205 - 211 |
Plasma-chemical preparation of nanostructured catalysts for low-temperature steam conversion of carbon monoxide: thermodynamic and model studies
Vissokov GP |
| 213 - 221 |
Plasma-chemical preparation of nanostructured catalysts for low-temperature steam conversion of carbon monoxide: properties of catalysts
Vissokov GP |
| 223 - 231 |
Plasma-chemical preparation of nanostructured catalysts for low-temperature steam conversion of carbon monoxide: catalytic activity
Vissokov GP |
| 233 - 236 |
Effect of catalysis on coal to nanotube in thermal plasma
Tian YJ, Zhang YL, Yu Q, Wang XZ, Hu Z, Zhang YF, Xie KC |
| 237 - 244 |
Plasma torch generation of carbon supported metal catalysts
Zea HG, Chen CK, Lester K, Phillips A, Datye A, Fonseca I, Phillips J |
| 245 - 251 |
Some peculiarities of nano-dispersed catalysts synthesized or regenerated in an arc plasma conditions
Vissokov GP |
