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Catalytic decomposition of N2O on supported Rh catalysts
Li YJ, Sundermann A, Gerlach O, Low KB, Zhang CCJ, Zheng XL, Zhu HY, Axnanda S
Catalysis Today, 355, 608, 2020 |
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Pd doped CaCoxZr1-xO3-delta perovskites for automotive emissions control
Zheng QH, Lail M, Amato K, Ennis JT
Catalysis Today, 320, 30, 2019 |
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Photocatalytic treatment of automotive exhaust emissions
Poulakis E, Philippopoulos C
Chemical Engineering Journal, 309, 178, 2017 |
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Closed-loop control of a SCR system using a NOx sensor cross-sensitive to NH3
Bonfils A, Creff Y, Lepreux O, Petit N
Journal of Process Control, 24(2), 368, 2014 |
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A PHYSICS-BASED INTEGRATED MODEL OF A SPARK IGNITION ENGINE AND A THREE-WAY CATALYST
Andrianov DI, Brear MJ, Manzie C
Combustion Science and Technology, 184(9), 1269, 2012 |
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Reducing automotive emissions-The potentials of combustion engine technologies and the power of policy
Berggren C, Magnusson T
Energy Policy, 41, 636, 2012 |
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Lean-burn NOx emission control via simulated stack of solid oxide fuel cells with Cu-added (LaSr)MnO3 cathodes
Huang TJ, Wu CY, Wu CC
Chemical Engineering Journal, 172(2-3), 665, 2011 |
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Effect of temperature and NOx concentration on nitric oxide removal from simulated lean-burn engine exhaust via electrochemical-catalytic cells
Huang TJ, Wang CH
Chemical Engineering Journal, 173(2), 530, 2011 |
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Synthesis of PdO/CeO2 mixed oxides catalyst for automotive exhaust emissions control
Hadi A, Yaacob II
Catalysis Today, 96(3), 165, 2004 |
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Catalytic activity and structural stability of La0.9Ce0.1Co1-xFexO3 perovskite catalysts for automotive emissions control
Tanaka H, Mizuno N, Misono M
Applied Catalysis A: General, 244(2), 371, 2003 |
