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Springer Handbook of Glass
This handbook provides comprehensive treatment of the current state of glass science from the leading experts in the field. Opening with an enlightening contribution on the history of glass, the volume is then divided into eight parts. The first part covers fundamental properties, from the current understanding of the thermodynamics of the amorphous state, kinetics, and linear and nonlinear optical properties through colors, photosensitivity, and chemical durability. The second part provides dedicated chapters on each individual glass type, covering traditional systems like silicates and other oxide systems, as well as novel hybrid amorphous materials and spin glasses. The third part feature...
Lead in Glassy Materials in Cultural Heritage
Although the development of lead crystal was a major step in the history of glass in the late 17th century, the presence of lead in vitreous matrices (glass and glazes) is much older, dating back to the second millennium BCE. Lead in Glassy Materials in Cultural Heritage traces the history of these skills and also looks at the most recent developments in materials science concerning the role played by lead in the properties of glass, including coloring. It develops an understanding of weathering processes and notions of the durability of leaded glass. It also examines public health issues and current recommended standards for the use of lead in industrial glass. This multidisciplinary book is intended for a wide audience: art and technical historians, museum curators, restorers, materials specialists, manufacturers and engineers.
X-Ray Studies on Electrochemical Systems
This book is your graduate level entrance into battery, fuel cell and solar cell research at synchrotron x-ray sources. Materials scientists find numerous examples for the combination of electrochemical experiments with simple and with highly complex x-ray scattering and spectroscopy methods. Physicists and chemists can link applied electrochemistry with fundamental concepts of condensed matter physics, physical chemistry and surface science. Contents: Introduction Molecular Structure and Electronic Structure Crystal Structure and Microstructure Real Space Imaging and Tomography Resonant Methods and Chemical Contrast Variation Surface Sensitive and Volume Sensitive Methods Organic and Bio-Organic Samples Complex Case Studies / Electrochemical In Situ Studies Correlation of Electronic Structure And Conductivity Radiation Damages Background Subtraction X-Ray Physics Nobel Prizes Synchrotron Centers World Electromagnetic Spectrum Kα,Β X-Ray Energies Periodic Table of Elements
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