Catalysis
portes grátis
Catalysis
Volume 34
Spivey, James J; Shekhawat, Dushyant; Han, Yi-Fan
Royal Society of Chemistry
07/2022
272
Dura
Inglês
9781839164996
15 a 20 dias
554
Descrição não disponível.
Theoretical Identification and Understanding of Catalytic Active Sites for Water Splitting Reactions;
Linking Electronic Structure to Adsorption Energies: Metal Surfaces and Single-atom Catalysts;
Microkinetic Modeling for Heterogeneous Catalysis: Methods and Illustrative Applications;
Encapsulated Metals for Confined Catalysis;
Noble Metals and Bimetallics Supported on Silica: An Approach Toward Creating Small Metal Particles;
Cooperative Catalytic Enhancements of Reactions Catalyzed by Mesoporous Materials;
Recent Advances on the Direct Decomposition of NOx;
Keggin Heteropolyacid Catalysts: Synthesis, Heterogenization, and Application in Conversion of Biomass-derived Molecules
Linking Electronic Structure to Adsorption Energies: Metal Surfaces and Single-atom Catalysts;
Microkinetic Modeling for Heterogeneous Catalysis: Methods and Illustrative Applications;
Encapsulated Metals for Confined Catalysis;
Noble Metals and Bimetallics Supported on Silica: An Approach Toward Creating Small Metal Particles;
Cooperative Catalytic Enhancements of Reactions Catalyzed by Mesoporous Materials;
Recent Advances on the Direct Decomposition of NOx;
Keggin Heteropolyacid Catalysts: Synthesis, Heterogenization, and Application in Conversion of Biomass-derived Molecules
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Catalysis; Organic Chemistry
Theoretical Identification and Understanding of Catalytic Active Sites for Water Splitting Reactions;
Linking Electronic Structure to Adsorption Energies: Metal Surfaces and Single-atom Catalysts;
Microkinetic Modeling for Heterogeneous Catalysis: Methods and Illustrative Applications;
Encapsulated Metals for Confined Catalysis;
Noble Metals and Bimetallics Supported on Silica: An Approach Toward Creating Small Metal Particles;
Cooperative Catalytic Enhancements of Reactions Catalyzed by Mesoporous Materials;
Recent Advances on the Direct Decomposition of NOx;
Keggin Heteropolyacid Catalysts: Synthesis, Heterogenization, and Application in Conversion of Biomass-derived Molecules
Linking Electronic Structure to Adsorption Energies: Metal Surfaces and Single-atom Catalysts;
Microkinetic Modeling for Heterogeneous Catalysis: Methods and Illustrative Applications;
Encapsulated Metals for Confined Catalysis;
Noble Metals and Bimetallics Supported on Silica: An Approach Toward Creating Small Metal Particles;
Cooperative Catalytic Enhancements of Reactions Catalyzed by Mesoporous Materials;
Recent Advances on the Direct Decomposition of NOx;
Keggin Heteropolyacid Catalysts: Synthesis, Heterogenization, and Application in Conversion of Biomass-derived Molecules
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.