TY  - BOOK
AU  - Yentekakis, Ioannis||Vernoux, Philippe
TI  - Emissions Control Catalysis
KW  - LNT||NSR||NOx storage||phosphorous||deactivation||poisoning||electrochemical reduction||CO2||CuO||TiO2||ethanol||cerium-doped titania||sulfur-tolerant materials||organic compounds purification||diesel oxidation catalyst||vehicle exhaust||chemical looping reforming||hydrogen||oxygen carrier||CeO2||nanorod||selective catalytic reduction||nitric oxide||ammonia||Cu/ZSM-5||cerium||zirconium||CO2 electroreduction||CO2 valorization||Cu catalyst||particle size||PEM||acetaldehyde production||methanol production||Ce-based catalyst||stepwise precipitation||diesel exhaust||nitrogen oxides abatement||electrochemical promotion||NEMCA||palladium||ionic promoter||nanoparticles||yttria-stabilized zirconia||direct NO decomposition||PGM oxide promotion||PdO vs. PtO||in-situ FT-IR||NO adsorption properties||redox properties||sintered ore catalyst||sulfate||In-situ DRIFTS||SCR||copper-ceria catalysts||hydrothermal method||CO oxidation||copper clusters||nanoceria||SOECs||RWGS reaction kinetics||Au–Mo–Fe-Ni/GDC electrodes||high temperature H2O/CO2 co-electrolysis||platinum||Rhodium||iridium||NO||N2O||propene||CO||methane||alkali||alkaline earth||platinum group metals||deNOx chemistry||lean burn conditions||TWC||catalyst promotion||EPOC||NH3-SCR||nanostructure||kinetics||thermodynamics||manganese oxides||Co3O4||complete CH4 oxidation||hydrothermal synthesis||precipitation||Pd/BEA||Cold start||Pd species||NOx abatement||ammonia oxidation||response surface methodology||desirability function||Box-Behnken design||carbon dioxide||hydrogenation||heterogeneous catalysis||plasma catalysis||value-added chemicals||methanol synthesis||methanation||Catalyst||(NH4)2SO4||deNOx||H2O and SO2 poisoning||low-temperature selective catalytic reduction||de-NOx catalysis||SO2/H2O tolerance||transition metal-based catalysts||perovskite||catalytic coating||cathodic sputtering method||n/a
UR  - https://mdpi.com/books/pdfview/book/2407
ER  -