Iron and Cobalt Catalysts
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| Autore: |
Shafer Wilson D
|
| Titolo: |
Iron and Cobalt Catalysts
|
| Pubblicazione: | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica: | 1 online resource (414 p.) |
| Soggetto topico: | Technology: general issues |
| Soggetto non controllato: | 3-D printed microchannel microreactor |
| additives | |
| Al2O3 | |
| alkyd | |
| alumina | |
| Anderson-Schulz-Flory (ASF) distribution | |
| artificial photosynthesis | |
| asymmetric hydrogenation | |
| autoxidation | |
| biodegradability-improvement | |
| C2-C4 hydrocarbons | |
| carvone | |
| catalysis | |
| catalyst deactivation | |
| Cd | |
| chain growth | |
| Co | |
| CO hydrogenation | |
| CO insertion | |
| CO2 conversion | |
| CO2 hydrogenation | |
| coating | |
| cobalt | |
| Cobalt | |
| cobalt carboxylate | |
| cobalt-nickel alloys | |
| cobalt-nickel nanoparticles | |
| conformational analysis | |
| CSTR | |
| DFT | |
| electrochemical application | |
| energy conversion | |
| Fe/Cu catalytic-ceramic-filler | |
| Fischer-Tropsch | |
| Fischer-Tropsch product distribution | |
| Fischer-Tropsch synthesis | |
| Fischer-Tropsch synthesis (FTS) | |
| gas-switching | |
| GTL | |
| HAADF-STEM | |
| homogeneous catalysis | |
| hydrocarbon selectivity | |
| hydrogen evolution | |
| hydrogenation of CO | |
| In | |
| iron | |
| Iron | |
| iron catalysts | |
| iron oxides | |
| iron-cobalt bimetal catalysts | |
| kinetic isotope effect | |
| kinetic studies | |
| kinetics | |
| limonene | |
| liquid-phase catalytic oxidation | |
| manganese | |
| mesoporous silica based catalysts | |
| modeling | |
| monometallic iron catalysts | |
| n/a | |
| nickel | |
| nitrobenzene compounds wastewater | |
| NMR spectroscopy | |
| oxygen evolution | |
| oxygen reduction | |
| oxygenates | |
| paraffin ratio | |
| pilot-scale test | |
| polymerization | |
| polynuclear cobalt complexes | |
| potassium | |
| pressure | |
| process synthesis and design | |
| Pt | |
| reaction mechanism | |
| reducibility | |
| ruthenium | |
| RWGS | |
| siccative | |
| Sn | |
| strong metal support interactions | |
| structural design | |
| synergic effect | |
| syngas | |
| Synthetic natural gas (SNG) | |
| temperature | |
| TPR-EXAFS/XANES | |
| water oxidation | |
| XANES | |
| zeolitic imidazolate frameworks | |
| Persona (resp. second.): | JacobsGary |
| ShaferWilson D | |
| Sommario/riassunto: | Since the turn of the last century when the field of catalysis was born, iron and cobalt have been key players in numerous catalysis processes. These metals, due to their ability to activate CO and CH, haev a major economic impact worldwide. Several industrial processes and synthetic routes use these metals: biomass-to-liquids (BTL), coal-to-liquids (CTL), natural gas-to-liquids (GTL), water-gas-shift, alcohol synthesis, alcohol steam reforming, polymerization processes, cross-coupling reactions, and photocatalyst activated reactions. A vast number of materials are produced from these processes, including oil, lubricants, waxes, diesel and jet fuels, hydrogen (e.g., fuel cell applications), gasoline, rubbers, plastics, alcohols, pharmaceuticals, agrochemicals, feed-stock chemicals, and other alternative materials. However, given the true complexities of the variables involved in these processes, many key mechanistic issues are still not fully defined or understood. This Special Issue of Catalysis will be a collaborative effort to combine current catalysis research on these metals from experimental and theoretical perspectives on both heterogeneous and homogeneous catalysts. We welcome contributions from the catalysis community on catalyst characterization, kinetics, reaction mechanism, reactor development, theoretical modeling, and surface science. |
| Titolo autorizzato: | Iron and Cobalt Catalysts |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910557147203321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |