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History of Analytical Chemistry is a systematic account of the historical development of analytical chemistry spanning about 4,000 years. Many scientists who have helped to develop the methods of analytical chemistry are mentioned. Various methods of analysis are discussed, including electrogravimetry, optical methods, electrometric analysis, radiochemical analysis, and chromatography. This volume is comprised of 14 chapters and begins with an overview of analytical chemistry in ancient Greece, the origin of chemistry, and the earliest knowledge of analysis. The next chapter focuses on analytical chemistry during the Middle Ages, with emphasis on alchemy. Analytical knowledge during the period of iatrochemistry and the development of analytical chemistry during the phlogiston period are then examined. Subsequent chapters deal with the development of the fundamental laws of chemistry, including the principle of the indestructibility of matter; analytical chemistry during the period of Berzelius; and developments in qualitative and gravimetric analysis. Elementary organic analysis is also considered, along with the development of the theory of analytical chemistry. This book will be helpful to chemists as well as students and researchers in the field of analytical chemistry.
Indicators offers a comprehensive account of indicators and their applications in areas such as titrimetric analysis and the analysis of mineral waters. The theory and principles of visual indicators are discussed, along with acid-base indicators, indicators for non-aqueous acid-base titrations, and titrations with non-chelating ligands. Metallochromic indicators, adsorption indicators, oxidation-reduction indicators, and fluorescent and chemiluminescent indicators are also considered. This volume is comprised of 10 chapters and begins with a brief history of indicators, including the contribution of Robert Boyle in the field. The different kinds of indicators are also described, along with developments in indicators in the nineteenth century. The next chapter deals with the theory and principles of visual indicators, followed by a discussion on acid-base indicators such as organic dyes, inorganic substances, compounds capable of fluorescence, and chemiluminescent systems. Subsequent chapters explore other varieties of indicators, including indicators for non-aqueous acid-base titrations, metallochromic indicators, and adsorption indicators, as well as oxidation-reduction indicators and fluorescent and chemiluminescent indicators. This book will be of interest to chemists.
Analytical Chemistry, Volume 38: Ion Exchange in Analytical Chemistry provides a broad survey of the important role that ion exchange can and should play in chemical analysis. This book focuses on the plate-equilibrium theory of chromatography, which is less difficult theoretically than the mass-transfer theory. Organized into 11 chapters, this volume begins with an overview of the earliest recorded application of ion exchange. This text then examines how high temperature affects ion-exchange resins. Other chapters consider the exchange of ions between a solid ion-exchanging material and a solution, which is a typically reversible reaction. This book describes as well the relatively simple separations and other applications of ion exchange to analytical chemistry. The final chapter deals with the interesting nature of the metal complexes formed within the exchanger and describe the use of ion-exchange distribution studies to determine the stability and nature of complexes existing in the solution. This book is a valuable resource for analytical chemists.
Analytical Chemistry, Volume 7: Gravimetric Analysis, Part II describes the experimental procedures for the gravimetric analysis of Groups I to V cations. This book is composed of 43 chapters that also present sample preparation, separation, and precipitation protocols. The first six chapters include Group I cations, such as silver, lead, mercury, copper, bismuth, and cadmium, followed by chapters on Group II cations, including arsenic, antimony, tin, germanium, gold, platinum, selenium, and tellurium. The subsequent chapters explore the gravimetric determination of Group III cations, namely, aluminum, iron, chromium, nickel, cobalt, zinc, manganese, titanium, zirconium, hafnium, thorium, scandium, niobium and tantalum, molybdenum, tungsten, vanadium, uranium, thallium, indium, gallium, and beryllium. The remaining chapters are devoted to analysis of various forms of Groups IV and V cations. This book will prove useful to analytical and inorganic chemists, teachers, and students in the allied fields.