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Alkali Halide Vapors: Structure, Spectra, and Reaction Dynamics highlights the various studies done in the subject area of alkali halide chemistry. These studies have resulted to providing many relevant insights and paving the way for the study of more complex chemical systems. This book ultimately reviews and summarizes the said studies. This text is divided into two categories: structural and spectral properties of the alkali halide molecules and dynamics of various alkali atom-halogen reactions. The first category is discussed in Chapters 1, 3-5, and 15, while the second category is presented in Chapters 6-14. Chapter 2 however belongs to neither of the said categories as it describes the techniques and considerations related to alkali halogen experiments. Numerous quantitative data in table format are presented all of the discussions in this book. An index of these tables has been compiled and can be found in the last part of the book. This book will be a valuable material to students, scientists, and researchers in the scientific field of chemistry, physics, and applied science.
Negative ions formed by electron resonance capture in alkali halide vapors were investigated mass spectrometrically. Ions detected were: M( - ), X( - ), MX( - ), and M2X( - ) (M = Li, Na, K, Rb, Cs; X = F, Cl, Br, I). From measured appearance potentials and known dissociated energies, lower limits are given for the electron affinities of the alkali metals and the alkali halides.
This monograph describes the preparation, fabrication and structure of phthalocyanine-based materials.
Designed for both one- and two-semester courses, this textbook provides a succinct and easy-to-read introduction to crystal structures and structure-property relations. By linking together the fundamentals of bond strength and the arrangement of atoms in space with the mechanical, optical, magnetic and electrical properties that they control, students will gain an intuitive understanding of how different materials are suited to particular applications. The systematics of crystal structures are described for both organic and inorganic materials, with coverage including small molecular crystals, polymers, metals, ceramics and semiconductors. Hundreds of figures and practice problems help students gain an advanced, 3D understanding of how structure governs behavior, and a wealth of examples throughout show how the underlying theory is translated into practical devices. With solutions, video lectures and overheads available online for instructors, this is an excellent resource for graduates and senior undergraduates studying materials science and engineering.