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The Chemistry of the Metallic Elements provides a concise yet comprehensive discussion of the structural principles of metallic elements. The book also provides tables that layout the data concerning the more common metals and their compounds. The text first covers the general information about the metallic elements, such as their physical properties, chemical properties, occurrence, and extraction. The subsequent chapters detail the elements and their compounds in context to their structure, and position in the periodic table and in the electrochemical series. The book will be of great use to researchers and practitioners of chemistry and chemical engineering.
The current textbook is an excellent inroduction to the chemistry of the non-metallic elements. The book begins by reviewing the key theoretical concepts of chemical bonding and the properties of different bonding types. Subsequent chapters are focused on reactions, structures and applications of the non-metallic compounds. Combining careful pedagogy and clear writing style, the textbook is a must-have for students studying inorganic chemistry.
The present volume continues the description of the chemical reactions of eiemental tungsten started with "Tungsten" Suppl. Vol. A 7. It covers the reactions with the metallic elements from zinc to actinoids. The treatment includes phase diagrams, bulk reactions, and surface processes which again are of outstanding importance in most systems. The raader is referred to the introductory remarks on pp. X/XI. Frankfurt am Main Ernst Koch November 1987 Introductory Remarks Abbreviations In order not to overload the text, the following abbreviations are sometimes used without definitions in the present volume, in addition to the abbreviations usual in the Gmelin Handbook. a. c. alternating current AE Auger electron Auger electron spectroscopy(ic) or spectrum AES bcc body-centered cubic CPD contact potential difference counts per second cps d. c. direct current DTA differential thermoanalysis Fermi Ievel EF EI electron impact ELS electron energy loss spectroscopy or spectrum EMF, emf electromotive force fcc face-centered cubic FE field emission field electron (emission) microscope(ic) FEM FES field emission spectroscopy FIM field ion microscope(ic) F-N Fowler-Nordheim hcp hexagonal close-packed 6 L Langmuir=1·10- Torr·s LEED low energy electron diffraction monolayer ML PES photoelectron spectroscopy PSD photon-stimulated desorption RHEED reflection high energy electron diffraction room temperature RT SI secondary ion SIMS secondary ion mass spectrometry TDS thermal desorption spectroscopy(ic) or spectrum TE thermionic emission total energy distribution TED UHV ultra-high vacuum UPS ultra-violet photoelectron spectroscopy(ic) or spectrum XPS X-ray photoelectron spectroscopy(ic) or spectrum Gmelin Handbock WSuppl. Vol.
„Das Buch von Steudel bietet eine sehr lesenswerte und gut verständliche Darstellung wesentlicher Inhalte der Anorganischen Molekülchemie. Nach einer Einführung in die Chemische Bindung widmet sich das Werk der Stoffchemie der Hauptgruppenelemente.“ Prof. Dr. Michael Ruck, TU Dresden
Providing vital knowledge on the design and synthesis of specific metal-organic framework (MOF) classes as well as their properties, this ready reference summarizes the state of the art in chemistry. Divided into four parts, the first begins with a basic introduction to typical cluster units or coordination geometries and provides examples of recent and advanced MOF structures and applications typical for the respective class. Part II covers recent progress in linker chemistries, while special MOF classes and morphology design are described in Part III. The fourth part deals with advanced characterization techniques, such as NMR, in situ studies, and modelling. A final unique feature is the inclusion of data sheets of commercially available MOFs in the appendix, enabling experts and newcomers to the field to select the appropriate MOF for a desired application. A must-have reference for chemists, materials scientists, and engineers in academia and industry working in the field of catalysis, gas and water purification, energy storage, separation, and sensors.
Emphasises on contemporary applications and an intuitive problem-solving approach that helps students discover the exciting potential of chemical science. This book incorporates fresh applications from the three major areas of modern research: materials, environmental chemistry, and biological science.
Chemistry of the Non-Metallic Elements is concerned with the non-metals and is to be read in conjunction with The Chemistry of the Metallic Elements by D. M. McC. Steele. The object has not been to provide an encyclopedic coverage of all the chemical reactions of non-metals but rather to select those which will enable the student to appreciate better the similarities and differences between the elements. The book discusses the chemistry of the non-metals in relation to their positions in the periodic groups. It covers the noble gases, hydrogen, the halogens, Group VIB, oxygen, sulfur, Group VB, nitrogen, phosphorus, carbon, and silicon. Where the groups contain metals, as in Group IVA, their chemistry is briefly discussed to show the properties which occur. This book provides a comprehensive treatment of chemistry at the intermediate level, that is, the sixth-form/first-year university level. Readers are assumed to have a background of O-level chemistry and of O- or A-level physics and a working knowledge of elementary mathematics.
Compounds of the Transition Elements Involving Metal-Metal Bonds focuses on compounds of the transition elements involving metal-metal bonds. Emphasis is on metal-metal bonds in coordination compounds and organometallic complexes, halides, and oxides. Factors that influence the formation, stability, and properties of such compounds, as well as their application in various fields of chemistry and physics, are discussed. This book is divided into four sections and begins with a classification of metal-metal bonds and some of the physical and chemical methods used to study them, including X-ray crystallography, magnetic susceptibility and electron spin resonance, nuclear spin resonance, Mössbauer measurements, infrared and Raman spectroscopy, visible and ultraviolet spectroscopy, mass spectrometry, electrical conductivity, electrochemistry, and chemical reactivity. Factors influencing the strength of metal-metal bonds in metals and compounds are also examined. The remaining sections deal with metal-metal bonds in coordination compounds and organometallic complexes, halides, and oxides. This monograph will be a useful resource for inorganic chemists.