Inorganic Hydrides focuses on the hydrides of chemical elements. The hydrides discussed in this book are classified into four principal categories — ionic, covalent, transition metal hydrides, and metallic hydrides. Hydrides that do not fit into general classification, such as hydrides of copper and zinc, can be described as borderline hydrides and form a transition in type between the covalent hydrides of the later elements of the periodic table and the metallic hydrides of the transition elements. This text begins with an introduction to the classes of hydrides and hydrides of hydrogen, discussing element by element through frequent comparisons. The transition metal hydrides and metallic hydrides are also elaborated. This selection concludes with the chapter on bonding and bond strengths in hydrides, followed by the applications of infrared, Raman, and nuclear magnetic resonance spectroscopy. The general chemistry of water and its solvent properties are also briefly deliberated. This publication is suitable for undergraduates, particularly on covering the developments and chemistry of inorganic hydrides.
I The Structure and Physicochemical Properties of Carbides.- Structures.- Thermodynamic and thermophysical properties.- Electrophysical and magnetic properties.- Physicomechanical properties.- Chemical properties.- II Methods of Producing Carbides.- III Carbides of Metals of Group I.- Carbides of the alkali metals.- Carbides of metals of the copper subgroup.- IV Carbides of Metals of Group II.- Carbides of beryllium, magnesium, and the alkaline-earth metals.- Carbides of the zinc subgroup.- V Carbides of the Transition Metals.- Carbides of scandium, yttrium, and the lanthanides.- Carbides of t.
This book has been conceived to collect the most important recent advances in all areas of hydride chemistry research, including chemical reactivity, instrumental investigation, theory, and applications in the areas of catalysis, biochemistry and materials science. Many of the chapters have been written by the plenary lecturers of the EURO-Hydrides 2000 conference, but other leading scientists in this field have also been invited to contribute. The first part of the book focuses on the chemistry and catalysis of transition metal hydrides. Another block of chapters illustrates the most recent advances in the application of instrumental techniques to the study of the properties and reactivity of hydride compounds. The final part of the book illustrates the relevance of metal-hydrogen bonds in biochemistry and materials science. All of the chapters of this book have been evaluated by independent reviewers.