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Electrochemistry can be an elegant and essential support to synthetic inorganic chemistry. However, it is often perceived as a difficult technique. This book aims to introduce inorganic chemists to electrochemical investigations in as straightforward a way as possible.First, the reader is introduced to the theory of electron transfer processes, how they can be studied by various electrochemical techniques, and the practical procedures required. The book then goes on to look extensively, and with numerous illustrations, at the application of the techniques in the multiple fields of inorganic ch
Electrochemistry. --- Chemistry, Inorganic. --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Chemistry, Physical and theoretical --- Chemistry, Inorganic --- Electrochemistry --- 544.6 --- 544.6 Electrochemistry
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Chemistry, Inorganic --- Chemistry, Physical and theoretical --- Chemistry, Inorganic. --- Chemistry, Physical and theoretical. --- Anorganische chemie. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Inorganic chemistry --- Inorganic Chemistry --- Chemistries, Inorganic --- Inorganic Chemistries --- Chemistry --- Inorganic compounds --- Chimie inorganique --- Chimie physique et théorique
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544.354 --- Electrolyte dissociation. Ionization in solutions --- Inorganic compounds --- Ionic solutions. --- Organic compounds --- Synthesis. --- Ionic solutions --- Chemistry, Organic --- Chemistry, Synthetic organic --- Organic synthesis (Chemistry) --- Synthetic organic chemistry --- Solutions, Ionic --- Ions --- Solution (Chemistry) --- Chemistry, Inorganic --- Chemistry, Synthetic inorganic --- Inorganic synthesis (Chemistry) --- Synthetic inorganic chemistry --- Synthesis --- Ionic liquids
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Undoubtedly the chemistry of phosphorus appears more and more attractive in the sense that phosphorus presents an extraordinary versatile behaviour that allows the synthesis of a large number of different phosphorus reagents usable for applications in different fields, from biology to material science without f- getting key applications in catalysis. The full maturity of this topic of research can be explained by all the acquired knowledge over these twenty last years. Organic and inorganic chemistries of P , P and P species have been the s- in ]V v ject of thousands of publications while the chemistry of low coordinated ph- phorus derivatives experienced its hour of glory from the 1970s to the early 1990s. In parallel, interactions between phosphorus compounds and transition metals afforded many complexes, a lot of which present fascinating properties as catalysts. The interest in all these themes really is not decreasing, indeed some fas- nating areas of research are emerging or are the subject of many investigations: the medicinal chemistry of bisphosphonates, the role of phosphorus in biology, phosphorus ligands in radiopharmaceutical chemistry, phosphorus in material science, new polymers and dendrimers incorporating phosphorus, and as- metric catalysis to name but a few. Indeed researchers, benefitting from their background in basic phosphorus chemistry are developing many new fields of research.
Phosphorus compounds. --- Organic chemistry. --- Inorganic chemistry. --- Biochemistry. --- Organic Chemistry. --- Inorganic Chemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Inorganic chemistry --- Inorganic compounds --- Organic chemistry --- Composition --- Polymers . --- Polymer Sciences. --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules
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547.057 --- 547.057 Organic chemistry--?.057 --- Organic chemistry--?.057 --- Inorganic chemistry. --- Organic chemistry. --- Biochemistry. --- Inorganic Chemistry. --- Organic Chemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Organic chemistry --- Inorganic chemistry --- Inorganic compounds --- Composition
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Organic chemistry. --- Analytical chemistry. --- Inorganic chemistry. --- Physical chemistry. --- Biochemistry. --- Organic Chemistry. --- Analytical Chemistry. --- Inorganic Chemistry. --- Physical Chemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Inorganic chemistry --- Inorganic compounds --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry, Analytic --- Organic chemistry --- Composition
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661.21 --- 546.22 --- 546.22 Sulphur S --- Sulphur S --- 661.21 Sulphur --- Sulphur --- Chemistry. --- Inorganic chemistry. --- Condensed matter. --- Chemistry/Food Science, general. --- Inorganic Chemistry. --- Condensed Matter Physics. --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Physical sciences
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Despite more than 200 years of sulfur research the chemistry of elemental sulfur and sulfur-rich compounds is still full of “white spots” which have to be filled in with solid knowledge and reliable data. This situation is parti- larly regrettable since elemental sulfur is one of the most important raw - terials of the chemical industry produced in record-breaking quantities of ca. 35 million tons annually worldwide and mainly used for the production of sulfuric acid. Fortunately, enormous progress has been made during the last 30 years in the understanding of the “yellow element”. As the result of extensive inter- tional research activities sulfur has now become the element with the largest number of allotropes, the element with the largest number of binary oxides, and also the element with the largest number of binary nitrides. Sulfur, a typical non-metal, has been found to become a metal at high pressure and is even superconducting at 10 K under a pressure of 93 GPa and at 17 K at 260 GPa, respectively. This is the highest critical temperature of all chemical elements. Actually, the pressure-temperature phase diagram of sulfur is one of the most complicated of all elements and still needs further investigation.
661.21 --- 546.22 --- 546.22 Sulphur S --- Sulphur S --- 661.21 Sulphur --- Sulphur --- Inorganic chemistry. --- Condensed matter. --- Inorganic Chemistry. --- Condensed Matter Physics. --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Inorganic chemistry --- Chemistry --- Inorganic compounds
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Organized nanoassemblies of inorganic nanoparticles and organic molecules are building blocks of nanodevices, whether they are designed to perform molecular level computing, sense the environment or improve the catalytic properties of a material. The key to creation of these hybrid nanostructures lies in understanding the chemistry at a fundamental level. This book serves as a reference book for researchers by providing fundamental understanding of many nanoscopic materials.
Nanostructured materials. --- Chemistry, Physical organic. --- Chemistry, inorganic. --- Surfaces (Physics). --- Physical Chemistry. --- Inorganic Chemistry. --- Characterization and Evaluation of Materials. --- Physical chemistry. --- Inorganic chemistry. --- Materials science. --- Material science --- Physical sciences --- Inorganic chemistry --- Chemistry --- Inorganic compounds --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology
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