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Meeting the long-felt need for in-depth information on one of the most advanced material characterization methods, a top team of editors and authors from highly prestigious facilities and institutions covers a range of synchrotron techniques that have proven useful for materials research. Following an introduction to synchrotron radiation and its sources, the second part goes on to describe the various techniques that benefit from this especially bright light, including X-ray absorption, diffraction, scattering, imaging, and lithography. The thrid and final part provides an overview of the applications of synchrotron radiation in materials science. bridging the gap between specialists in synchrotron research and material scientists, this is a unique and indispensable resource for academic and industrial researchers alike.
The individual papers that comprise this monograph are derived from two American Chemical Society (ACS) Fall National Meetings that focused on the current uses of synchrotron radiation (SR) research techniques. The first Symposium was held in Washington, DC, in August 1994, and the second convened in Chicago, IL, in August 1995. The intent of these symposia was to present a broad overview of several current topics in industrial, chemical, and materials-based SR research to a chemically inclined audience. The SR techniques covered were divided roughly into the three general fields of industrial, chemical, and materials science for this purpose. Included within these four categories are environmental, geologic, atomic/molecular, analytical, solid state physics, surface science, and biological applications of SR. There is little doubt that structural biology and environmental science are the largest growth areas in SR research as this monograph goes to press. The spirit of these symposia was to bring together the expert synchrotron radiation user with new and potential users of SR techniques. There are now a preponderance of particle storage rings, located throughout the world, devoted exclusively to the production of SR. There have been great improvements in the particle accelerators and storage rings from which SR emanates. These newest third generation SR sources are the result of the successful collaboration between SR users and accelerator physicists which has made a reality out of experiments never before possible.
The 57 papers update the status of characterization techniques that use synchrotron radiation since the previous symposium on the subject in the spring of 1996. The techniques considered include X-ray absorption and scattering, imaging, tomography, microscopy, and topographic methods. Among the materials are surfaces, interfaces, electronic materials, metal oxides, solar cells, thin films, carbides, polymers, alloys, nanoparticles, and graphitic materials. Some of the papers are doubled spaced. Annotation copyrighted by Book News, Inc., Portland, OR
Much like earlier books in the series, this collection of papers, first published in 2001, brings together the materials science community and the characterization techniques that use synchrotron radiation. Surfaces, interfaces, electronic materials, thin films, carbides, polymers and alloys are all addressed. And while the editors did not anticipate that the cluster of papers treating cementitious materials would necessitate a separate section, it is interesting to see the application of cutting-edge techniques to Portland cement, a very complex materials system long used in engineering structures. Topics include: X-ray diffraction - structures and transformations; X-ray diffraction - stress, strain and texture; microtomography and microdiffraction; SR methods applied to cementitious materials; magnetic materials; X-ray absorption and photoemission; and X-ray scattering and interfaces.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Much like earlier books in the series, this collection of papers, first published in 2001, brings together the materials science community and the characterization techniques that use synchrotron radiation. Surfaces, interfaces, electronic materials, thin films, carbides, polymers and alloys are all addressed. And while the editors did not anticipate that the cluster of papers treating cementitious materials would necessitate a separate section, it is interesting to see the application of cutting-edge techniques to Portland cement, a very complex materials system long used in engineering structures. Topics include: X-ray diffraction - structures and transformations; X-ray diffraction - stress, strain and texture; microtomography and microdiffraction; SR methods applied to cementitious materials; magnetic materials; X-ray absorption and photoemission; and X-ray scattering and interfaces.
This book collects several contributions presented at the 2019 meeting of the Italian Synchrotron Radiation Society (SILS), held in Camerino, Italy, from 9 to 11 September 2019. Topics included are recent developments in synchrotron radiation facilities and instrumentation, novel methods for data analysis, applications in the fields of materials physics and chemistry, Earth and environmental science, coherence in x-ray experiments. The book is intended for advanced students and researchers interested in synchrotron-based techniques and their application in diverse fields.