| 379 - 379 |
Environmental Catalysis - Fundamental and Applied NOx Control Studies - Proceedings of the 2nd World Congress on Environmental Catalysis, Miami, FL, USA - 15-20 November 1998 -Preface
Subramanian RB, Jang BWL, Spivey JJ |
| 381 - 390 |
Supported gold/MOx catalysts for NO/H-2 and CO/O-2 reactions
Dekkers MAP, Lippits MJ, Nieuwenhuys BE |
| 391 - 400 |
Enhanced activity of metal oxide-doped Ga2O3-Al2O3 for NO reduction by propene
Haneda M, Kintaichi Y, Hamada H |
| 401 - 406 |
Activity, selectivity and durability of VO-ZSM-5 catalysts for the selective catalytic reduction of NO by ammonia
Piehl G, Liese T, Grunert W |
| 407 - 418 |
Selective catalytic reduction of NO on copper-exchanged zeolites: the role of the structure of the zeolite in the nature of copper-active sites
Torre-Abreu C, Henriques C, Ribeiro FR, Delahay G, Ribeiro MF |
| 419 - 429 |
NO reduction by CH4 in the presence of excess O-2 over Pd/sulfated zirconia catalysts
Chin YH, Pisanu A, Serventi L, Alvarez WE, Resasco DE |
| 431 - 438 |
The origin of N2O formation in the selective catalytic reduction of NOx by NH3 in O-2 rich atmosphere on Cu-faujasite catalysts
Delahay G, Coq B, Kieger S, Neveu B |
| 439 - 450 |
Selective catalytic reduction of NO by propene in excess oxygen on Pt- and Rh-supported alumina catalysts
Nikolopoulos AA, Stergioula ES, Efthimiadis EA, Vasalos IA |
| 451 - 464 |
Effect of Pt on the water resistance of Co-zeolites upon the SCR of NOx with CH4
Gutierrez L, Boix A, Petunchi J |
| 465 - 472 |
EPR spectroscopic characterization of DeNO(x) and SO2 oxidation catalysts and, model systems
Eriksen KM, Jensen CK, Rasmussen SB, Oehlers C, Bal'zhinimaev BS, Fehrmann R |
| 473 - 482 |
The reactions of possible intermediates in the selective catalytic reduction of nitrogen oxides by hydrocarbons
Cant NW, Cowan AD, Liu IOY, Satsuma A |
| 483 - 494 |
Reduction of NOx over Fe/ZSM-5 catalysts: mechanistic causes of activity differences between alkanes
Chen HY, Voskoboinikov T, Sachtler WMH |
| 495 - 505 |
The bifunctional reaction pathway and dual kinetic regimes in NOxSCR by methane over cobalt mordenite catalysts
Regalbuto JR, Zheng T, Miller JT |
| 507 - 519 |
Effect of the support upon the behavior of Cu in NO decomposition exemplified on Cu-ZSM-5 containing Zr
Parvulescu VI, Centeno MA, Dupont O, Barjega R, Ganea R, Delmon B, Grange P |
| 521 - 529 |
Hydrothermal stability of dealuminated mordenite type zeolite catalysts for the reduction of NO by C3H6 under lean-burn condition
Chung SY, Oh SH, Kim MH, Nam IS, Kim YG |
| 531 - 545 |
Zeolite-mediated removal of NOx by NH3 from exhaust streams at low temperatures
Richter M, Berndt H, Eckelt R, Schneider M, Fricke R |
| 547 - 552 |
The interaction of NO with Co2+/Co3+ redox centres in CoAPOs catalysts: FTIR and UV-VIS investigations
Gianotti E, Marchese L, Martra G, Coluccia S |
| 553 - 558 |
In-containing H-ZSM5 zeolites with various Si/Al ratios for the NOSCR in the presence of CH4 and O-2. PAC, TPAD and FTIR studies
Requejo FG, Ramallo-Lopez JM, Lede EJ, Miro EE, Pierella LB, Anunziata OA |
| 559 - 567 |
Uncatalyzed and catalyzed NO and N2O reaction using various catalysts and binary barium mixtures supported on activated carbon
Carabineiro SA, Fernandes FB, Vital JS, Ramos AM, Silva IF |
| 569 - 574 |
Decomposition of NO over Cu-AITS-1 zeolites
Schay Z, Guczi L, Koppany Z, Nagy I, Beck A, Samuel V, Dongare MK, Sabde DP, Hegde SG, Ramaswamy AV |
