| 455 - 462 |
The contribution of the utilization option to reducing the CO2 atmospheric loading: research needed to overcome existing barriers for a full exploitation of the potential of the CO2 use
Aresta M, Dibenedetto A |
| 463 - 484 |
Tri-reforming of methane: a novel concept for catalytic production of industrially useful synthesis gas with desired H-2/CO ratios
Song CS, Wei P |
| 485 - 492 |
Probing the mechanistic aspects of the chromium salen catalyzed carbon dioxide/epoxide copolymerization process using in situ ATR/FTIR
Darensbourg DJ, Rodgers JL, Mackiewicz RM, Phelps AL |
| 493 - 498 |
Chemical kinetics of the reaction between carbon dioxide and phenyl glycidyl ether using Aliquat 336 as a catalyst
Park SW, Park DW, Kim TY, Park MY, Oh KJ |
| 499 - 504 |
Comparative studies on the performance of immobilized quaternary ammonium salt catalysts for the addition of carbon dioxide to glycidyl methacrylate
Park DW, Yu BS, Jeong ES, Kim I, Kim MI, Oh KJ, Park SW |
| 505 - 509 |
Photocatalytic conversion of CH4 and CO2 to oxygenated compounds over Cu/CdS-TiO2/SiO2 catalyst
Shi DX, Feng YQ, Zhong SH |
| 511 - 514 |
Ionic liquid-derived zinc tetrahalide complexes: structure and application to the coupling reactions of alkylene oxides and CO2
Palgunadi J, Kwon OS, Lee H, Bae JY, Ahn BS, Min NY, Kim HS |
| 515 - 521 |
Selective formation of ethylene from CO2 by catalytic electrolysis at a three-phase interface
Ogura K, Yano H, Tanaka T |
| 523 - 528 |
Hydrogenation of nitro compounds with supported platinum catalyst in supercritical carbon dioxide
Zhao FY, Fujita S, Sun JM, Ikushima Y, Arai M |
| 529 - 536 |
Synthesis of a Ru(bpy)(3)-type complex linked to a free terpyridine ligand and its use for preparation of polynuclear bimetallic complexes
Wolpher H, Ping H, Borgstrom M, Bergquist J, Styring S, Sun LC, Akermark B |
| 537 - 544 |
In situ carbon dioxide fixation in the process of natural astaxanthin production by a mixed culture of Haematococcus pluvialis and Phaffia rhodozyma
Dong QL, Zhao XM |
| 545 - 552 |
Effects of modification of silica gel and ADH on enzyme activity for enzymatic conversion of CO2 to methanol
Hong W, Huang SF, Jiang ZY |
| 553 - 563 |
Partial oxidation and combined reforming of methane on Ce-promoted catalysts
Wei W, Stagg-Williams SM, Noronha FB, Mattos LV, Passos FB |
| 565 - 574 |
Towards an efficient process for small-scale, decentralized conversion of methane to synthesis gas: combined reactor engineering and catalyst synthesis
Neumann D, Kirchhoff M, Veser G |
| 575 - 581 |
Highly active and stable Rh/MgO-Al2O3 catalysts for methane steam reforming
Wang Y, Chin YH, Rozmiarek RT, Johnson BR, Gao Y, Watson J, Tonkovich AYL, Vander Wiel DP |
| 583 - 587 |
Partial oxidation of methane to syngas over BaTi1-xNixO3 catalysts
Guo CL, Zhang JL, Wei L, Zhang PF, Wang YP |
| 589 - 594 |
C-1 oxidative coupling via bromine activation and tandem catalytic condensation and neutralization over CaO/zeolite composites - II. Product distribution variation and full bromine confinement
Lorkovic IM, Noy ML, Schenck WA, Belon C, Weiss M, Sun SL, Sherman JH, McFarland EW, Stucky GD, Ford PC |
| 595 - 600 |
On the oxidative coupling of methane with carbon dioxide over CeO2/ZnO nanocatalysts
He YJ, Yang BL, Cheng GX |
| 601 - 605 |
Reforming of methane and coalbed methane over nanocomposite Ni/ZrO2 catalyst
Zhang QH, Yan L, Xu BQ |
| 607 - 616 |
Partial oxidation of methane using a microscale non-equilibrium plasma reactor
Nozaki T, Hattori A, Okazaki K |
| 617 - 624 |
Methane conversion to C-2 hydrocarbons and hydrogen in atmospheric non-thermal plasmas generated by different electric discharge techniques
Li XS, Zhu AM, Wang KJ, Yong X, Song ZM |
| 625 - 631 |
Plasmachemical synthesis and regeneration (activation) of nanostructured catalysts for steam conversion of methane
Vissokov GP |
| 633 - 638 |
Conversion of natural gas to hydrogen and carbon black by plasma and application of plasma carbon black
Cho W, Lee SH, Ju WS, Baek Y, Lee JK |
| 639 - 645 |
Methane aromatization using Mo-based catalysts prepared by microwave heating
Qi ST, Yang BL |
| VII - VIII |
Utilization of greenhouse gases - Preface
Liu CJ, Hammer T, Mallinson R |
