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Full Description
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.
Contents
Industrial.- Industrial Protein X-Ray Crystallography: An Overview.- Recent Advances in the Use of Synchrotron Radiation for Macromolecular Crystallography.- The Crystal Structures of Some New Forms of Aluminum Fluoride as Determined from Their Synchrotron Powder Diffraction Patterns.- Synchrotron Radiation-Based Research at the Dow Chemical Company.- Powder Crystallography of Useful Materials Using Synchrotron Radiation.- Surface Physics with Synchrotron Radiation.- Chemical.- Chemical Reaction Dynamics Using the Advanced Light Source.- High Resolution Photoionization and Excitation Using Third Generation Synchrotron Radiation Sources.- Recent Advances toward a Structural Model for the Photosynthetic Oxygen-Evolving Manganese Cluster.- Cesium XAFS Studies of Solution Phase Cs-Ionophore Complexation.- X-Ray Spectroscopic Studies of Microbial Transformations of Uranium.- Applications of Synchrotron Radiation Techniques to Chemical Issues in the Environmental Sciences.- Materials Science.- Studies of Magnetic Materials with Circular Polarized Soft X-Rays.- Resonant Photoemission in Polymers.- Characterization of the Interaction of Uranyl Ions with Humic Acids by X-Ray Absorption Spectroscopy.- EXAFS Studies of Lanthanide Coordination in Crystalline Phosphates and Amorphous Phytates.- Chemical and Structural Elucidation of Minor Components in Simulated Hanford Low-Level Waste Glasses.
