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Author:   H Over
Publisher:   Wiley-VCH Verlag GmbH
Imprint:   Blackwell Verlag GmbH
ISBN:  

9783527340439

ISBN 10:   3527340432
Pages:   350
Publication Date:   06 September 2023
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Forthcoming
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

INTRODUCTION What is Surface Chemistry? Surface Chemistry: Basis for Nanoscience Surface Chemistry: Applications in Catalysis and Materials Science Brief History of Surface Science Somme Illustrative Examples for Surface Chemistry: Ammonia Synthesis, CO Oxidation, Oxidation of Si(100) TERMINOLOGY AND NOTATION OF SURFACES TOOL BOX OF SURFACE SCIENCE Surface Sensitivity and General Instrumentation Surface Analytic Tools Surface Structure Vibrational Spectroscopy Electronic Properties Surface Bond Strength Microscopy In Situ and in Operando Techniques Holy Grail: Combine Microscopy with Spectroscopy and Diffraction on the Nanoscale First Principles Theory in Surface Chemistry BASIC CONCEPTS IN SURFACE CHEMISTRY Metal Versus Semiconductor Surface Surface Energy Dangling Bonds Surface Reconstruction/Relaxation CO Adsorption on Transition Metal Surface: Blyholder Model Newns-Anderson Model Adsorption and Desorption of Simple Molecules (H2, O2, N2) Sabatier, Universal Descriptors BEP (Bronsted-Evans-Polanyi)Relation Model Systems PHYSICAL CHEMISTRY IN TWO DIMENSIONS Thermodynamics at Surfaces Transport Properties Chemical Kinetics at Surfaces Surface Reaction, Detailed Balance, Langmuir Hinshelwood Mechanism, Mars van Krevelen Mechanism Microkinetic Modeling of Reactions CASE STUDIES Reconstruction of Si Surfaces: Minimizing the Number of Dangling Bonds How to Visualize Dangling Bonds: Pseudo-Charge Difference Plots Adsorption of CO on Transition Metal Surface Adsorption of O2 on Transition Metal Surface CO Oxidation over Transition Metal Surfaces: Model Reaction in Surface Chemistry Promotor Action of Alkali Metals in Catalysis Oxidation of Metal Surfaces: Stability of Metal Catalyst under Oxidizing Reaction Conditions Ammonia Synthesis over Fe an Ru Based Model Catalyst CO Oxidation over RuO2(110): Micro Kinetic Simulations HCl Oxidation over RuO2: Stability versus Activity Electrolysis: Chlorine Evolution over RuO2 - Thermodynamics versus Kinetics Hydrous RuO2: Bifunctional Catalsts RuO2 Grown on TiO2(110): Model System for a Variety of Different Surface Scientific Questions OUTLOOK Strong Metal Support Interaction Storage Catalyst (Surface Chemistry Beyond Two Dimensions) Single Site Catalyst (Homogeneous versus Heterogeneous Catalysis) Combine Solid State Electrochemistry with Heterogeneous Catalysis Surface Electrochemistry Electrocatalysis: Battery, Fuel Cell, Electrolysis Photocatalysis: Solar Driven Water Splitting Configurational and Energy Control of Reactions

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Author Information

Herbert Over is Professor of Physical Chemistry at the Justus Liebig University in Gie?en, Germany, since 2002. He studied electrical engineering at the University of Applied Sciences in Bingen and physics as well as mathematics at the Technical University in Berlin, Germany. In 1991 he graduated from the Fritz Haber Institute and received his PhD in chemistry at the Free University in Berlin. Following a postdoctoral appointment at the University of Wisconsin-Milwaukee, he returned to the Fritz Haber Institute in Berlin, where he completed his habilitation in physical chemistry. Then he became permanent research associate at the Max Planck Institute for Solid State Research in Stuttgart, before taking up his current position. His current research interests focus on an atomistic understanding of elementary reaction steps on transition metal oxide surfaces and how this knowledge can be applied in model systems of heterogeneous and electro-catalysis.

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