Catalysis by Precious Metals, Past and Future
Tejada, Marcela Martinez||Ivanova, Svetlana
Catalysis by Precious Metals, Past and Future
English[eng]
sustainable ammonia synthesis||Pt3Sn alloy||alkenols||n/a||PtSn alloy||propane dehydrogenation||chelate||photodegradation||gold nanoparticles||photochemical||alkynols||triple bond electron charge||palladium catalyst||Pt/Al2O3||2-methyl-3-butyn-2-ol||hydrogen storage||X-ray crystallography||ruthenium||platinum dispersion||gold catalysts||reduction temperature||DOC||palladium||renewable hydrogen||1-propanol||4-hydroxyproline||glycerol||2-?-benzylproline||proline||hydrogen bonding||oxidative coupling||glucose oxidation||stabilizing agent||titania||4-fluoroproline||turnover frequency||porous carbons||Pt–Sn/Al2O3||P25@Pd||catalyst synthesis||2-propanol||amino acid||azetidine||precious metals||clay||gas phase hydrogenation||CNTs||3-butyn-2-ol||Pd/Al2O3||heterogeneous enantioselective hydrogenation||XPS||microwave||caesium||perovskite||CO oxidation||Au–TiO2||dodecahydro-N-ethylcarbazole||phenol photo-degradation||pipecolinic acid||3-butyn-1-ol||acetophenone||drying||palladium catalysts||N-methylproline||dehydrogenation||PVA||aging||hydrodechlorination||hydrogenolysis||dispersion||direct reduction||core-shell
Catalysis by Precious Metals, Past and Future
English[eng]
sustainable ammonia synthesis||Pt3Sn alloy||alkenols||n/a||PtSn alloy||propane dehydrogenation||chelate||photodegradation||gold nanoparticles||photochemical||alkynols||triple bond electron charge||palladium catalyst||Pt/Al2O3||2-methyl-3-butyn-2-ol||hydrogen storage||X-ray crystallography||ruthenium||platinum dispersion||gold catalysts||reduction temperature||DOC||palladium||renewable hydrogen||1-propanol||4-hydroxyproline||glycerol||2-?-benzylproline||proline||hydrogen bonding||oxidative coupling||glucose oxidation||stabilizing agent||titania||4-fluoroproline||turnover frequency||porous carbons||Pt–Sn/Al2O3||P25@Pd||catalyst synthesis||2-propanol||amino acid||azetidine||precious metals||clay||gas phase hydrogenation||CNTs||3-butyn-2-ol||Pd/Al2O3||heterogeneous enantioselective hydrogenation||XPS||microwave||caesium||perovskite||CO oxidation||Au–TiO2||dodecahydro-N-ethylcarbazole||phenol photo-degradation||pipecolinic acid||3-butyn-1-ol||acetophenone||drying||palladium catalysts||N-methylproline||dehydrogenation||PVA||aging||hydrodechlorination||hydrogenolysis||dispersion||direct reduction||core-shell