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Quantum electrodynamics --- Phonons. --- Trapped ions. --- Mathematical models.
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Quantum electrodynamics --- Phonons. --- Trapped ions. --- Mathematical models.
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Lithium ions. --- Lithium cells. --- Lithium ion batteries. --- Mine safety
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Lithium ions. --- Lithium cells. --- Lithium ion batteries. --- Mine safety
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This outline of the principles and chemical interactions in inorganic solution chemistry delivers a course module in an area of considerable complexity. Problems with solutions and tutorial hints to test comprehension have been added as a feature to check readers' understanding and assist self-study. Exercises and projects are also provided to help readers deepen and extend their knowledge and understanding.Inorganic solution chemistry is treated thoroughlyEmphasis is placed upon NMR, UV-VIS, IR Raman spectroscopy, X-ray diffraction, and such topics as acid-base behavi
Ionic solutions --- Solution (Chemistry) --- Ionic solutions. --- Ions. --- Intermediates (Chemistry) --- Matter --- Physics --- Electrolysis --- Electrons --- Salt solutions --- Chemistry --- Chemistry, Physical and theoretical --- Mixtures --- Cryoscopy --- Osmosis --- Solutions, Ionic --- Ions --- Properties
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This fourth volume of the series ""Progress in Physical Chemistry"" is a collection of mini-review articles written by those who were project leaders and members of the Collaborative Research Centre (SFB) 458 of the German Research Foundation (DFG). The articles are based on ten years of intense coordinated research and report particularly on the scientific progress made at SFB 458 since 2005. Their common theme is the study of ionic motion in disordered materials over wide scales in space and time. The mini reviews thus address key questions in the rapidly developing field of SOLID STATE IONI
Chemistry, Organic. --- Chemistry, Physical. --- Physical organic chemistry. --- Ionic mobility. --- Mobility of ions --- Ions --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Organic chemistry --- Chemistry --- Migration and velocity
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Ares 1 launch vehicle. --- Ares 1 upper stage. --- Metal ions. --- Lithium batteries. --- Capacity. --- Electrical properties.
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Component reliability. --- Lithium. --- NASA space programs. --- Lunar surface. --- Metal ions. --- Electrochemical cells.
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Ionic Liquids (ILs) are one of the most interesting and rapidly developing areas of modern physical chemistry, technologies and engineering. This book, consisting of 29 chapters gathered in 4 sections, reviews in detail and compiles information about some important physical-chemical properties of ILs and new practical approaches. This is the first book of a series of forthcoming publications on this field by this publisher. The first volume covers some aspects of synthesis, isolation, production, modification, the analysis methods and modeling to reveal the structures and properties of some room temperature ILs, as well as their new possible applications. The book will be of help to chemists, physicists, biologists, technologists and other experts in a variety of disciplines, both academic and industrial, as well as to students and PhD students. It may help to promote the progress in ILs development also.
Ionic solutions --- Properties. --- Solutions, Ionic --- Ions --- Solution (Chemistry) --- Physical Sciences --- Engineering and Technology --- Materials Science --- Fluid Dynamics --- Fluid Mechanics
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Room temperature ionic liquids (RTILs) are an interesting and valuable family of compounds. Although they are all salts, their components can vary considerably, including imidazolium, pyridinium, ammonium, phosphonium, thiazolium, and triazolium cations. In general, these cations have been combined with weakly coordinating anions. Common examples include tetrafluoroborate, hexafluorophosphate, triflate, triflimide, and dicyanimide. The list of possible anionic components continues to grow at a rapid rate. Besides exploring new anionic and cation components, another active and important area of research is the determinination and prediction of their physical properties, particularly since their unusual and tunable properties are so often mentioned as being one of the key advantages of RTILs over conventional solvents. Despite impressive progress, much work remains before the true power of RTILs as designer solvents (i.e. predictable selection of a particular RTIL for any given application) can be effectively harnessed.
Ionic solutions --- Properties. --- Solutions, Ionic --- Ions --- Solution (Chemistry) --- Physical Sciences --- Engineering and Technology --- Materials Science --- Fluid Dynamics --- Fluid Mechanics
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