Model Systems in Catalysis

Catalytic Chemistry of Hydrocarbon Conversion Reactions on Metallic Single Crystals.- Structure, Characterization and Reactivity of Pt–Sn Surface Alloys.- Catalysis at Bimetallic Electrochemical Interfaces.- Enantioselectivity on Naturally Chiral Metal Surfaces.- Chiral Expression by Organic Architectures at Metal Surfaces: the Role of Both Adsorbate and Surface in Inducing Asymmetry.- Role of C and P Sites on the Chemical Activity of Metal Carbides and Phosphides: From Clusters to Single-Crystal Surfaces.- Surface Reactions of Oxygen Containing Compounds on Metal Oxide (TiO2 and UO2) Single Crystals.- Surface Science Studies of Strong Metal-Oxide Interactions on Model Catalysts.- Surface Thermodynamics: Small Molecule Adsorption Calorimetry on Metal Single Crystals.- Surface Femtochemistry.- The Incorporation of Added Metal Atoms into Structures of Reaction Intermediates on Catalytic Metal Surfaces.- Chemical Bonding on Metal Surfaces.- From Molecular Insights to Novel Catalysts Formulation.- The Reactivity of Gas-Phase Metal Oxide Clusters: Systems for Understanding the Mechanisms of Heterogeneous Catalysts.- Catalysis by Noble Metal Nanoparticles Supported on Thin-Oxide Films.- Catalysis by Supported Size-Selected Clusters.- Catalysis by Thin Oxide Films and Oxide Nanoparticles.- Catalysis with Transition Metal Nanoparticles in Colloidal Solution: Heterogeneous or Homogeneous?.- Well-Defined Metallic and Bimetallic Clusters Supported on Oxides and Zeolites.- A Convergence of Homogeneous and Heterogeneous Catalysis: Immobilized Organometallic Catalysts.- Single-Site Heterogeneous Catalysts: Innovations, Advantages, and Future Potential in Green Chemistry and Sustainable Technology.- Molecular-Imprinted Metal Complexes for the Design of Catalytic Structures.-Heterogeneous Catalyst Design by Multiple Functional Group Positioning in Organic–Inorganic Materials: On the Route to Analogs of Multifunctional Enzymes.