This book provides a comprehensive overview of the main nuclear characterization techniques used to study hydrogen absorption and desorption in materials. The various techniques (neutron scattering, nuclear magnetic resonance, ion-beams, positron annihilation spectroscopy) are explained in detail, and a variety of examples of recent research projects are given to show the unique advantage of these techniques to study hydrogen in materials. Most of these nuclear techniques require very specialized instrumentation, and there are only a handful of these instruments available worldwide. Therefore, the aim of this book is to reach out to a readership with a very diverse background in the physical sciences and engineering and a broad range of hydrogen-related research interests. The same technique can be used by researchers interested in the improvement of the performance of hydrogen storage materials and by those focused on hydrogen ingress causing embrittlement of metals. The emphasis of this book is to provide tutorial material on how to use nuclear characterization techniques for the investigation of hydrogen in materials - information that cannot readily be found in conference and regular research papers. Provides a comprehensive overview of nuclear techniques used for hydrogen-related research Explains all nuclear techniques in detail for the non-expert Covers the whole range of hydrogen-related research Features chapters written by world-renowned experts in nuclear technique and hydrogen-related research

Colorectal cancer is the third most common cancer worldwide, and in many parts of the western world, it is the second leading cause of cancer-related deaths. This book covers colon cancer metastasis from the most fundamental aspects to clinical practice. Major topics include physiopathology, genetic and epigenetic controls, cancer initiating cells, epithelial-mesenchymal transition, growth factors and signalling, cell adhesion, natures of liver metastasis, angiogenesis and lymphangiogenesis, inflammatory response, prognostic markers, sentinel node and staging, and finally diagnosis and treatment. Each chapter has been contributed by leaders in the field. A key feature is that it connects with a large readership including students, fundamentalists and clinicians. Another specific feature of the book is that the chapters are written in a didactic and illustrative fashion. These characteristics coupled with the choice of the topics and authors, makes this book a reference in the field. It represents an essential acquisition for medical libraries, clinicians as well as medical and graduate students.

This book shows how severe plastic deformation techniques could be used to enhance the hydrogen storage properties of metal hybrides. The mechanochemical techniques of ball-milling (BM), Cold Rolling (CR), Equal Chanel Angular Pressing (ECAP) and High Pressure Torsion (HPT) are covered. Each technique is described and critically assessed with respect to its usefulness to process metal hybrides at an industrial scale.

Colorectal cancer is the third most common cancer worldwide, and in many parts of the western world, it is the second leading cause of cancer-related deaths. This book covers colon cancer metastasis from the most fundamental aspects to clinical practice. Major topics include physiopathology, genetic and epigenetic controls, cancer initiating cells, epithelial-mesenchymal transition, growth factors and signalling, cell adhesion, natures of liver metastasis, angiogenesis and lymphangiogenesis, inflammatory response, prognostic markers, sentinel node and staging, and finally diagnosis and treatment. Each chapter has been contributed by leaders in the field. A key feature is that it connects with a large readership including students, fundamentalists and clinicians. Another specific feature of the book is that the chapters are written in a didactic and illustrative fashion. These characteristics coupled with the choice of the topics and authors, makes this book a reference in the field. It represents an essential acquisition for medical libraries, clinicians as well as medical and graduate students.

This book provides a comprehensive overview of the main nuclear characterization techniques used to study hydrogen absorption and desorption in materials. The various techniques (neutron scattering, nuclear magnetic resonance, ion-beams, positron annihilation spectroscopy) are explained in detail, and a variety of examples of recent research projects are given to show the unique advantage of these techniques to study hydrogen in materials. Most of these nuclear techniques require very specialized instrumentation, and there are only a handful of these instruments available worldwide. Therefore, the aim of this book is to reach out to a readership with a very diverse background in the physical sciences and engineering and a broad range of hydrogen-related research interests. The same technique can be used by researchers interested in the improvement of the performance of hydrogen storage materials and by those focused on hydrogen ingress causing embrittlement of metals. The emphasis of this book is to provide tutorial material on how to use nuclear characterization techniques for the investigation of hydrogen in materials - information that cannot readily be found in conference and regular research papers. Provides a comprehensive overview of nuclear techniques used for hydrogen-related research Explains all nuclear techniques in detail for the non-expert Covers the whole range of hydrogen-related research Features chapters written by world-renowned experts in nuclear technique and hydrogen-related research