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This book has focused on novel developments and advancements in the field of heterogeneous catalysis with the aim of greenhouse gas reduction. The book determines whether carbon dioxide is a crisis or an opportunity, as well as its conversion into useful products such as synthesis gas. Moreover, the selective catalytic removal of nitrogen oxides is also presented.
Al2O3 --- CO2 reforming --- La2O3 --- CH4 --- ZrO2 --- perovskites --- strontium --- cerium --- hydrogen --- sintering --- carbon deposition --- BiF3 nanostructure --- POP composite --- photocatalyst --- Rz ink --- CO2 --- stability --- H-ZSM-5 --- greenhouse gas reduction --- CeO2 --- MgO --- dry reforming --- heterogeneous catalysis --- in situ XRD --- carbon dioxide (CO2) --- carbon monoxide (CO) --- CO2 feedstock --- methanation --- catalyst --- catalysis --- photocatalysis --- Power-to-Gas --- catalyst design --- heterogenous catalysts database --- ceramic foams --- ZnO nanorods --- TiO2 nanorods --- NOx mitigation (deNOx) --- environmental nanocatalysis --- selective catalytic reduction SCR --- W and V catalytic sites --- n/a
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This book has focused on novel developments and advancements in the field of heterogeneous catalysis with the aim of greenhouse gas reduction. The book determines whether carbon dioxide is a crisis or an opportunity, as well as its conversion into useful products such as synthesis gas. Moreover, the selective catalytic removal of nitrogen oxides is also presented.
Technology: general issues --- Chemical engineering --- Al2O3 --- CO2 reforming --- La2O3 --- CH4 --- ZrO2 --- perovskites --- strontium --- cerium --- hydrogen --- sintering --- carbon deposition --- BiF3 nanostructure --- POP composite --- photocatalyst --- Rz ink --- CO2 --- stability --- H-ZSM-5 --- greenhouse gas reduction --- CeO2 --- MgO --- dry reforming --- heterogeneous catalysis --- in situ XRD --- carbon dioxide (CO2) --- carbon monoxide (CO) --- CO2 feedstock --- methanation --- catalyst --- catalysis --- photocatalysis --- Power-to-Gas --- catalyst design --- heterogenous catalysts database --- ceramic foams --- ZnO nanorods --- TiO2 nanorods --- NOx mitigation (deNOx) --- environmental nanocatalysis --- selective catalytic reduction SCR --- W and V catalytic sites --- n/a
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This book has focused on novel developments and advancements in the field of heterogeneous catalysis with the aim of greenhouse gas reduction. The book determines whether carbon dioxide is a crisis or an opportunity, as well as its conversion into useful products such as synthesis gas. Moreover, the selective catalytic removal of nitrogen oxides is also presented.
Technology: general issues --- Chemical engineering --- Al2O3 --- CO2 reforming --- La2O3 --- CH4 --- ZrO2 --- perovskites --- strontium --- cerium --- hydrogen --- sintering --- carbon deposition --- BiF3 nanostructure --- POP composite --- photocatalyst --- Rz ink --- CO2 --- stability --- H-ZSM-5 --- greenhouse gas reduction --- CeO2 --- MgO --- dry reforming --- heterogeneous catalysis --- in situ XRD --- carbon dioxide (CO2) --- carbon monoxide (CO) --- CO2 feedstock --- methanation --- catalyst --- catalysis --- photocatalysis --- Power-to-Gas --- catalyst design --- heterogenous catalysts database --- ceramic foams --- ZnO nanorods --- TiO2 nanorods --- NOx mitigation (deNOx) --- environmental nanocatalysis --- selective catalytic reduction SCR --- W and V catalytic sites --- n/a
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The objective of this Special Issue is to provide new contributions in the area of biomass valorization using heterogeneous catalysts and focusing specifically on the structure/activity relationships of specific and important oxidation, hydrogenation, hydrodeoxygenation and biocatalytic processes. The issue emphasizes the influence of the design and morphology of the catalyst, in terms of particle size, redox and acid-base properties and catalyst stability. Finally, mechanistic studies and examples of design and optimization of industrial processes are presented.
furfural --- MPV reaction --- acid–base characterization --- methylbutynol test reaction --- Fischer–Tropsch synthesis --- Co/SBA–15 --- pore size --- pore length --- dry gel conversion --- MFI zeolite --- particle sizes --- silica sources --- hydrodeoxygenation --- biocatalysis --- bio-based platform chemicals --- furans --- reduction --- whole cells --- nickel phosphide --- cellobiose --- sorbitol --- MCM-41 --- hydrolytic hydrogenation --- zeolites --- catalysis --- solid acid --- solid base --- chemical modification --- alkylation --- glycosidation --- 2 methyl-furan --- catalyst design --- iron --- magnesium oxide --- catalytic hydrogen transfer reduction --- methanol --- diffusion --- ab initio --- industrial design --- H-ZSM-5 --- multiscale modeling --- adiabatic reactor --- zeolite catalysis --- hydrogenation --- palladium --- nanoparticles --- capping agent --- sol-immobilization --- furoic acid --- gold --- hydrotalcite --- oxidation --- bimetallic nanoparticles --- base-free --- green oxidation --- embedded catalysts --- biomass --- Eucalyptus globulus wood --- cross-flow autohydrolysis --- kinetic modeling --- hemicellulose-derived products --- gold catalysis --- selective oxidation --- colloidal synthesis --- 5-(hydroxymethyl)furfural --- 2,5-furandicarboxylic acid --- particle size --- biomass conversion --- in-situ synthesis --- Sn-Beta zeolite --- isomorphous substitution --- glucose --- HMF --- oxidative condensation --- furan-2-acrolein --- Pd-based catalysts --- n/a --- acid-base characterization --- Fischer-Tropsch synthesis --- Co/SBA-15
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The objective of this Special Issue is to provide new contributions in the area of biomass valorization using heterogeneous catalysts and focusing specifically on the structure/activity relationships of specific and important oxidation, hydrogenation, hydrodeoxygenation and biocatalytic processes. The issue emphasizes the influence of the design and morphology of the catalyst, in terms of particle size, redox and acid-base properties and catalyst stability. Finally, mechanistic studies and examples of design and optimization of industrial processes are presented.
Research & information: general --- Technology: general issues --- furfural --- MPV reaction --- acid–base characterization --- methylbutynol test reaction --- Fischer–Tropsch synthesis --- Co/SBA–15 --- pore size --- pore length --- dry gel conversion --- MFI zeolite --- particle sizes --- silica sources --- hydrodeoxygenation --- biocatalysis --- bio-based platform chemicals --- furans --- reduction --- whole cells --- nickel phosphide --- cellobiose --- sorbitol --- MCM-41 --- hydrolytic hydrogenation --- zeolites --- catalysis --- solid acid --- solid base --- chemical modification --- alkylation --- glycosidation --- 2 methyl-furan --- catalyst design --- iron --- magnesium oxide --- catalytic hydrogen transfer reduction --- methanol --- diffusion --- ab initio --- industrial design --- H-ZSM-5 --- multiscale modeling --- adiabatic reactor --- zeolite catalysis --- hydrogenation --- palladium --- nanoparticles --- capping agent --- sol-immobilization --- furoic acid --- gold --- hydrotalcite --- oxidation --- bimetallic nanoparticles --- base-free --- green oxidation --- embedded catalysts --- biomass --- Eucalyptus globulus wood --- cross-flow autohydrolysis --- kinetic modeling --- hemicellulose-derived products --- gold catalysis --- selective oxidation --- colloidal synthesis --- 5-(hydroxymethyl)furfural --- 2,5-furandicarboxylic acid --- particle size --- biomass conversion --- in-situ synthesis --- Sn-Beta zeolite --- isomorphous substitution --- glucose --- HMF --- oxidative condensation --- furan-2-acrolein --- Pd-based catalysts --- n/a --- acid-base characterization --- Fischer-Tropsch synthesis --- Co/SBA-15
Choose an application
The objective of this Special Issue is to provide new contributions in the area of biomass valorization using heterogeneous catalysts and focusing specifically on the structure/activity relationships of specific and important oxidation, hydrogenation, hydrodeoxygenation and biocatalytic processes. The issue emphasizes the influence of the design and morphology of the catalyst, in terms of particle size, redox and acid-base properties and catalyst stability. Finally, mechanistic studies and examples of design and optimization of industrial processes are presented.
Research & information: general --- Technology: general issues --- furfural --- MPV reaction --- acid–base characterization --- methylbutynol test reaction --- Fischer–Tropsch synthesis --- Co/SBA–15 --- pore size --- pore length --- dry gel conversion --- MFI zeolite --- particle sizes --- silica sources --- hydrodeoxygenation --- biocatalysis --- bio-based platform chemicals --- furans --- reduction --- whole cells --- nickel phosphide --- cellobiose --- sorbitol --- MCM-41 --- hydrolytic hydrogenation --- zeolites --- catalysis --- solid acid --- solid base --- chemical modification --- alkylation --- glycosidation --- 2 methyl-furan --- catalyst design --- iron --- magnesium oxide --- catalytic hydrogen transfer reduction --- methanol --- diffusion --- ab initio --- industrial design --- H-ZSM-5 --- multiscale modeling --- adiabatic reactor --- zeolite catalysis --- hydrogenation --- palladium --- nanoparticles --- capping agent --- sol-immobilization --- furoic acid --- gold --- hydrotalcite --- oxidation --- bimetallic nanoparticles --- base-free --- green oxidation --- embedded catalysts --- biomass --- Eucalyptus globulus wood --- cross-flow autohydrolysis --- kinetic modeling --- hemicellulose-derived products --- gold catalysis --- selective oxidation --- colloidal synthesis --- 5-(hydroxymethyl)furfural --- 2,5-furandicarboxylic acid --- particle size --- biomass conversion --- in-situ synthesis --- Sn-Beta zeolite --- isomorphous substitution --- glucose --- HMF --- oxidative condensation --- furan-2-acrolein --- Pd-based catalysts --- n/a --- acid-base characterization --- Fischer-Tropsch synthesis --- Co/SBA-15
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