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Currently, cobalt and related catalysts are very attractive as they provide many advantages, such as low cost and high activity, in a variety of applications. Cobalt catalysts are among the most active catalysts for Fischer–Tropsch synthesis and they promote the catalytic activity of the hydrodesulfurization catalysts. They also found other significant applications in environmental protection such as oxidation of volatile organic compounds, VOC, persulfate activator, ammonia synthesis, electrocatalysis and many more. Cobalt catalysts are active, stable and exhibit significant oxidation–reduction activity, as the Co can be found either as Co(II) or Co(III). Additionally, many molecules can interact with the cobalt supported phase by co-ordination due to partially filled d-orbital. Co-catalysts can be supported in almost all the inorganic supports such as alumina, titania, zeolites, etc. The cobalt oxide phase can be stabilized on the surface of the support due to variable interactions between the support and cobalt phase. These interactions are crucial for catalytic activity and can be regulated by proper selection of the preparation parameters such as the type of support, the Co loading, impregnation method and thermal conditions.This Special Issue aims to cover recent progress and advances in the field of cobalt and related catalysts.
Technology: general issues --- electrocatalyst --- oxygen reduction reaction --- Al-air battery --- biomass --- nitrogen-doped carbon --- halloysite --- hierarchical materials --- p-xylene oxidation --- terephthalic acid --- cobalt catalyst --- titania --- diffuse reflectance spectroscopy --- sulfamethaxazole --- persulfates --- point of zero charge --- Co-ZSM-5 --- UV-Vis diffuse reflection spectroscopy --- FTIR spectroscopy --- pyridine adsorption --- CO adsorption --- Fischer-Tropsch synthesis --- bimetallic catalyst --- cobalt-nickel alloys --- TPR-XANES/EXAFS --- superstructures --- bicontinuous microemulsion --- oxygen evolution reaction --- metal-metal oxides --- electrocatalyst --- oxygen reduction reaction --- Al-air battery --- biomass --- nitrogen-doped carbon --- halloysite --- hierarchical materials --- p-xylene oxidation --- terephthalic acid --- cobalt catalyst --- titania --- diffuse reflectance spectroscopy --- sulfamethaxazole --- persulfates --- point of zero charge --- Co-ZSM-5 --- UV-Vis diffuse reflection spectroscopy --- FTIR spectroscopy --- pyridine adsorption --- CO adsorption --- Fischer-Tropsch synthesis --- bimetallic catalyst --- cobalt-nickel alloys --- TPR-XANES/EXAFS --- superstructures --- bicontinuous microemulsion --- oxygen evolution reaction --- metal-metal oxides
Choose an application
Currently, cobalt and related catalysts are very attractive as they provide many advantages, such as low cost and high activity, in a variety of applications. Cobalt catalysts are among the most active catalysts for Fischer–Tropsch synthesis and they promote the catalytic activity of the hydrodesulfurization catalysts. They also found other significant applications in environmental protection such as oxidation of volatile organic compounds, VOC, persulfate activator, ammonia synthesis, electrocatalysis and many more. Cobalt catalysts are active, stable and exhibit significant oxidation–reduction activity, as the Co can be found either as Co(II) or Co(III). Additionally, many molecules can interact with the cobalt supported phase by co-ordination due to partially filled d-orbital. Co-catalysts can be supported in almost all the inorganic supports such as alumina, titania, zeolites, etc. The cobalt oxide phase can be stabilized on the surface of the support due to variable interactions between the support and cobalt phase. These interactions are crucial for catalytic activity and can be regulated by proper selection of the preparation parameters such as the type of support, the Co loading, impregnation method and thermal conditions.This Special Issue aims to cover recent progress and advances in the field of cobalt and related catalysts.
electrocatalyst --- oxygen reduction reaction --- Al-air battery --- biomass --- nitrogen-doped carbon --- halloysite --- hierarchical materials --- p-xylene oxidation --- terephthalic acid --- cobalt catalyst --- titania --- diffuse reflectance spectroscopy --- sulfamethaxazole --- persulfates --- point of zero charge --- Co–ZSM-5 --- UV–Vis diffuse reflection spectroscopy --- FTIR spectroscopy --- pyridine adsorption --- CO adsorption --- Fischer–Tropsch synthesis --- bimetallic catalyst --- cobalt-nickel alloys --- TPR-XANES/EXAFS --- superstructures --- bicontinuous microemulsion --- oxygen evolution reaction --- metal–metal oxides --- n/a --- Co-ZSM-5 --- UV-Vis diffuse reflection spectroscopy --- Fischer-Tropsch synthesis --- metal-metal oxides
Choose an application
Currently, cobalt and related catalysts are very attractive as they provide many advantages, such as low cost and high activity, in a variety of applications. Cobalt catalysts are among the most active catalysts for Fischer–Tropsch synthesis and they promote the catalytic activity of the hydrodesulfurization catalysts. They also found other significant applications in environmental protection such as oxidation of volatile organic compounds, VOC, persulfate activator, ammonia synthesis, electrocatalysis and many more. Cobalt catalysts are active, stable and exhibit significant oxidation–reduction activity, as the Co can be found either as Co(II) or Co(III). Additionally, many molecules can interact with the cobalt supported phase by co-ordination due to partially filled d-orbital. Co-catalysts can be supported in almost all the inorganic supports such as alumina, titania, zeolites, etc. The cobalt oxide phase can be stabilized on the surface of the support due to variable interactions between the support and cobalt phase. These interactions are crucial for catalytic activity and can be regulated by proper selection of the preparation parameters such as the type of support, the Co loading, impregnation method and thermal conditions.This Special Issue aims to cover recent progress and advances in the field of cobalt and related catalysts.
Technology: general issues --- electrocatalyst --- oxygen reduction reaction --- Al-air battery --- biomass --- nitrogen-doped carbon --- halloysite --- hierarchical materials --- p-xylene oxidation --- terephthalic acid --- cobalt catalyst --- titania --- diffuse reflectance spectroscopy --- sulfamethaxazole --- persulfates --- point of zero charge --- Co–ZSM-5 --- UV–Vis diffuse reflection spectroscopy --- FTIR spectroscopy --- pyridine adsorption --- CO adsorption --- Fischer–Tropsch synthesis --- bimetallic catalyst --- cobalt-nickel alloys --- TPR-XANES/EXAFS --- superstructures --- bicontinuous microemulsion --- oxygen evolution reaction --- metal–metal oxides --- n/a --- Co-ZSM-5 --- UV-Vis diffuse reflection spectroscopy --- Fischer-Tropsch synthesis --- metal-metal oxides
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