| 1 - 1 |
Recent advances in plasma and catalysis (ISPCEM 2012) Preface
Jang BWL, Liu CJ, Endres F, Nozaki T |
| 2 - 8 |
Generation of non-thermal plasma combined with catalysts and their application in environmental technology
Mizuno A |
| 9 - 28 |
Energy, catalyst and reactor considerations for (near)-industrial plasma processing and learning for nitrogen-fixation reactions
Hessel V, Anastasopoulou A, Wang Q, Kolb G, Lang J |
| 29 - 38 |
Non-thermal plasma catalysis of methane: Principles, energy efficiency, and applications
Nozaki T, Okazaki K |
| 39 - 43 |
Removal of dilute VOCs in air by post-plasma catalysis over Ag-based composite oxide catalysts
Tang XJ, Feng FD, Ye LL, Zhang XM, Huang YF, Liu Z, Yan KP |
| 44 - 52 |
Low-temperature NO decomposition in humidified condition using plasma-catalyst system
Takahara Y, Ikeda A, Nagata M, Sekine Y |
| 53 - 57 |
Catalytic DBD plasma reactor for CO oxidation by in situ N2O decomposition
Mahammadunnisa S, Reddy PMK, Reddy EL, Subrahmanyam C |
| 58 - 65 |
Spectroscopic diagnostics of plasma-assisted catalytic systems for NO removal from NO/N-2/O-2/C2H4 mixtures
Niu JH, Peng B, Yang Q, Cong Y, Liu DP, Fan HY |
| 66 - 71 |
The effect of water vapor on NOx storage and reduction in combination with plasma
Wang H, Li XX, Chen M, Zheng XM |
| 72 - 77 |
Decomposition of ammonia by atmospheric pressure AC discharge: Catalytic effect of the electrodes
Zhao Y, Wang L, Zhang JL, Gong WM, Guo HC |
| 78 - 83 |
Deep oxidative/adsorptive desulfurization of model diesel oil by DBD/FeCl3-SiO2
Ban LL, Liu P, Ma CH, Dai B |
| 84 - 89 |
Deep oxidative desulfurization of model fuel via dielectric barrier discharge plasma oxidation using MnO2 catalysts and combination of ionic liquid extraction
Ma CH, Dai B, Xu CX, Liu P, Qi LL, Ban LL |
| 90 - 95 |
Effects of TiO2 coating on zeolite particles for NO and SO2 removal by dielectric barrier discharge process
Nasonova A, Kim KS |
| 96 - 103 |
Non-thermal plasma-assisted NOx storage and reduction on a LaMn0.9Fe0.1O3 perovskite catalyst
Shi C, Zhang ZS, Crocker M, Xu L, Wang CY, Au CT, Zhu AM |
| 104 - 108 |
Argon plasma reduced Pt nanocatalysts supported on carbon nanotube for aqueous phase benzyl alcohol oxidation
Zhou CM, Chen H, Yan YB, Jia XL, Liu CJ, Yang YH |
| 109 - 113 |
A facile method for preparing Pt/TiO2 photocatalyst with enhanced activity using dielectric barrier discharge
Di LB, Xu ZJ, Wang K, Zhang XL |
| 114 - 119 |
Study of stability of Ni/MgO/gamma-Al2O3 catalyst prepared by plasma for CO2 reforming of CH4
Xu Y, Long HL, Wei Q, Zhang XQ, Shang SY, Dai XY, Yin YX |
| 120 - 125 |
Plasma-assisted reduction of a NiO/Al2O3 catalyst in atmospheric pressure H-2/Ar dielectric barrier discharge
Tu X, Gallon HJ, Whitehead JC |
| 126 - 130 |
XAS study of Ni2P/MCM-41 prepared by hydrogen plasma reduction
Sun ZC, Li X, Wang AJ, Wang Y, Chen YY, Hu YK |
| 131 - 136 |
Temperature influence on the reactivity of plasma species on a nickel catalyst surface: An atomic scale study
Somers W, Bogaerts A, van Duin ACT, Huygh S, Bal KM, Neyts EC |
| 137 - 142 |
Fabrication of Ir nanoparticle-based biosensors by plasma electrochemical reduction for enzyme-free detection of hydrogen peroxide
Lee SW, Janyasupab M, Liu CC, Sankaran RM |
| 143 - 146 |
Atmospheric-pressure cold plasma for synthesizing Ag modified Degussa P25 with visible light activity using dielectric barrier discharge
Di LB, Xu ZJ, Zhang XL |
| 147 - 155 |
Ionic liquid and plasma effects on SiO2 supported Pd for selective hydrogenation of acetylene
Zhou T, Jang K, Jang BWL |
| 156 - 161 |
Carbon template removal by dielectric-barrier discharge plasma for the preparation of zirconia
Guo QT, With P, Liu Y, Glaser R, Liu CJ |
| 162 - 167 |
A stable and active iron catalyst supported on graphene nano-flakes for the oxygen reduction reaction in polymer electrolyte membrane fuel cells
Pascone PA, Berk D, Meunier JL |
