内容説明
This book is dedicated to recent advancements in theoretical and computational studies on the interactions of hydrogen and hydrogenated molecules with metal surfaces. These studies are driven by the development of high-performance computers, new experimental findings, and the extensive work of technological applications towards the realization of a sustainable hydrogen economy. Understanding of the elementary processes of physical and chemical reactions on the atomic scale is important in the discovery of new materials with high chemical reactivity and catalytic activity, as well as high stability and durability. From this point of view, the book focuses on the behavior of hydrogen and hydrogenated molecules on flat, stepped, and reconstructed metal surfaces. It also tackles the quantum mechanical properties of hydrogen and related adsorbates; namely, molecular orbital angular momentum (spin) and diffusion along the minimum potential energy landscape on metal surfaces. All of these profoundly influence the outcomes of (1) catalytic reactions that involve hydrogen; (2) hydrogen storage in metals; and (3) hydrogen purification membranes. Lastly, it surveys the current status of the technology, outlook, and challenges for the long-desired sustainable hydrogen economy in relation to the topics covered in the book.
目次
1. Atoms and Molecules on Metal Surfaces: A General Overview.- 2. Behavior of Hydrogen and Hydrogenated Species on Flat and Stepped Metal Surfaces.- 2.1 Adsorption.- 2.2 Induced Segregation on Bimetallic Surfaces- 2.3 Induced Reconstructions.- 3. Quantum States and Dynamics of Hydrogen.- 3.1 Hindered Rotation of Molecules on Metal Surfaces.- 3.2 Nuclear Spin Conversion of Molecules Facilitated by Metal Surfaces.- 4. Review of the Current Status of Hydrogen Economy.
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