1 - 2 |
Challenges for catalytic exhaust aftertreatment Preface Nova I, Epling B, Peden C |
3 - 14 |
Effect of speciated HCs on the performance of modern commercial TWCs Kang SB, Nam SB, Cho BK, Nam IS, Kim CH, Oh SH |
15 - 21 |
Catalytic activity and thermal stability of Au-CuO/SiO2 catalysts for the low temperature oxidation of CO in the presence of propylene and NO Bauer JC, Toops TJ, Oyola Y, Parks JE, Dai S, Overbury SH |
22 - 32 |
Reaction pathways and mechanism for ammonia formation and removal over palladium-based three-way catalysts: Multiple roles of CO Oh SH, Triplett T |
33 - 45 |
Passive-ammonia selective catalytic reduction (SCR): Understanding NH3 formation over close-coupled three way catalysts (TWC) DiGiulio CD, Pihl JA, Parks JE, Amiridis MD, Toops TJ |
46 - 55 |
Selective catalytic reduction of nitric oxide with ethanol/gasoline blends over a silver/alumina catalyst Pihl JA, Toops TJ, Fisher GB, West BH |
56 - 63 |
The role of pore size on the thermal stability of zeolite supported Cu SCR catalysts Blakeman PG, Burkholder EM, Chen HY, Collier JE, Fedeyko JM, Jobson H, Rajaram RR |
64 - 74 |
NH3-SCR over Cu/SAPO-34 - Zeolite acidity and Cu structure changes as a function of Cu loading Wang D, Zhang L, Li JH, Kamasamudram K, Epling WS |
75 - 82 |
Impact of different forms of feed sulfur on small-pore Cu-zeolite SCR catalyst Kumar A, Smith MA, Kamasamudram K, Currier NW, An H, Yezerets A |
83 - 89 |
Adsorption and desorption of propene on a commercial Cu-SSZ-13 SCR catalyst Kim DJ, Wang J, Crocker M |
90 - 98 |
Roles of C3H6 in NH3 generation and NO reduction over a Cu-chabazite SCR catalyst under lean/rich cycling conditions Kim MY, Choi JS, Crocker M |
99 - 104 |
Mathematical modelling of cold start effects over zeolite SCR catalysts for exhaust gas aftertreatment Colombo M, Nova I, Tronconi E, Schmeisser V, Weibel M |
105 - 115 |
Selective oxidation of ammonia on mixed and dual-layer Fe-ZSM-5+Pt/Al2O3 monolithic catalysts Shrestha S, Harold MP, Kamasamudram K, Yezerets A |
116 - 124 |
The influence of CO2 and H2O on the storage properties of Pt-Ba/Al2O3 LNT catalyst studied by FT-IR spectroscopy and transient microreactor experiments Morandi S, Prinetto F, Ghiotti G, Castoldi L, Lietti L, Forzatti P, Daturi M, Blasin-Aube V |
125 - 134 |
Fast lean-rich cycling for enhanced NOx conversion on storage and reduction catalysts Perng CCY, Easterling VG, Harold MP |
135 - 144 |
NOx storage and reduction pathways on zirconia and titania functionalized binary and ternary oxides as NOx storage and reduction (NSR) systems Say Z, Tohumeken M, Ozensoy E |
145 - 154 |
New insights on N2O formation pathways during lean/rich cycling of a commercial lean NOx trap catalyst Bartova S, Koci P, Mracek D, Marek M, Pihl JA, Choi JS, Toops TJ, Partridge WP |
155 - 163 |
Effect of Mg/A1 ratios on the NOx storage activity over Pt-BaO/Mg-Al mixed oxides Jeong S, Youn S, Kim DH |
164 - 172 |
Effects of potassium loading and thermal aging on K/Pt/Al2O3 high-temperature lean NOx trap catalysts Luo JY, Gao F, Kim DH, Peden CHF |