Sébastien Thomas scite author profile

Spectroscopic studies of the mechanistic steps that occur on supported precious metal catalysts used in industrial and automotive applications are hampered by a dearth of suitable experimental methods. We used femtosecond laser excitation followed by nanosecond time-resolved in situ Fourier-transform infrared spectroscopy to initiate a catalytic reaction on alumina-supported silver catalysts, which are of interest in minimizing nitrogen oxide emissions from fuel-efficient lean-burn engines. We found that the key intermediate step in the reaction between carbon monoxide and nitric oxide is the flip of a cyanide group from a silver nanoparticle to the alumina support (with a lifetime of 2 microseconds), which indicates the central role played by the interface between the metal particle and the oxide support.

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Sébastien Thomas

Catalytic CO2 valorization into CH4 on Ni-based ceria-zirconia. Reaction mechanism by operando IR spectroscopy

Identification and quantification of 14 phthalates and 5 non-phthalate plasticizers in PVC medical devices by GC–MS

Real-Time Infrared Detection of Cyanide Flip on Silver-Alumina NO _x Removal Catalyst

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Sébastien Thomas

Catalytic CO2 valorization into CH4 on Ni-based ceria-zirconia. Reaction mechanism by operando IR spectroscopy

Identification and quantification of 14 phthalates and 5 non-phthalate plasticizers in PVC medical devices by GC–MS

Real-Time Infrared Detection of Cyanide Flip on Silver-Alumina NO x Removal Catalyst

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Real-Time Infrared Detection of Cyanide Flip on Silver-Alumina NO _x Removal Catalyst