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Physical Methods in Modern Chemical Analysis, Volume 3 presents the fundamental principles, the instrumentation or necessary equipment, and applications of selected physical methodologies in chemical analysis. This volume contains chapters that discuss various topics on chemical analysis methods such as transform methods in chemistry; X-ray spectrometry; the principles of electrochemical measurements; and global optimization strategy for gas-chromatographic separations. The book will prove to be an excellent reference material for chemists, researchers, and students of chemistry.
Completely revised and updated, Chemical Analysis: Second Edition is an essential introduction to a wide range of analytical techniques and instruments. Assuming little in the way of prior knowledge, this text carefully guides the reader through the more widely used and important techniques, whilst avoiding excessive technical detail. Provides a thorough introduction to a wide range of the most important and widely used instrumental techniques Maintains a careful balance between depth and breadth of coverage Includes examples, problems and their solutions Includes coverage of latest developments including supercritical fluid chromatography and capillary electrophoresis
Physical Methods in Modern Chemical Analysis, Volume 1 presents the fundamental principles, the instrumentation or necessary equipment, and applications of selected physical methodologies in chemical analysis. This volume contains chapters on gas chromatography; principles and instrumentation of mass spectrometry; fluorescence and atomic absorption spectroscopy; applications, scope, and structural problems of mass spectrometry; and flame and plasma emission methods of analysis. Chemists, researchers, and students of chemistry will find the book an excellent reference material.
Physical Methods in Modern Chemical Analysis, Volume 2 covers the fundamental principles, the instrumentation or necessary equipment, and applications of selected physical methods. This volume contains five chapters, and deals first with the theory, instrumentation, column features, and applications of high-performance liquid chromatography. The next two chapters survey the principles, experimental aspects, procedures, and specific applications of X-ray photoelectron spectroscopy and X-ray diffraction methods. A chapter discusses the technical and theoretical aspects of ion cyclotron resonance, with a special emphasis on its application in gas phase ion and neutral compounds analysis. The last chapter explores the apparatus and experimental procedures in refractive index measurements. This book will be of value to analytical chemists and analytical chemistry researchers.
Includes subject section, name section, and 1968-1970, technical reports.
Physical Methods in Chemical Analysis, Volume III focuses on the application of physical methods in chemical analysis, including chromatography, spectroscopy, nuclear magnetic resonance, and photometry. The selection first offers information on gas chromatography, electrochromatography, and electroanalytical methods in trace analysis. Discussions focus on analytical applications, apparatus and techniques, titration methods, anodic stripping of deposited metals, and polarography. The book then examines the high-frequency method of chemical analysis, field emission microscopy, and theory and principles of sampling for chemical analysis. The publication takes a look at flame photometry and microwave spectroscopy. Topics include sample treatment required for flame photometric determinations; factors affecting precision and accuracy in flame photometry; theoretical background of microwave spectroscopy, and problems connected with quantitative analysis. The manuscript then elaborates on analytical applications of nuclear magnetic resonance; fluorescent x-ray spectrometric analysis; and neutron spectroscopy and neutron interactions in chemical analysis. The selection is a dependable reference for readers interested in the application of physical methods in chemical analysis.
Systematic Materials Analysis focuses on the broad range of instrumental methods that brings new approaches to materials analysts to yield the desired information about a given material. This book explores the specific instruments that briefly outline the theories of operation. Organized into ten chapters, this volume starts with an overview of the analytical methods on the bases of specimen limitations and information desired, and then examines the use of flow charts encompassing the various instruments. This text then discusses the use of the charts, which present a complete listing of analytical instrumentation arranged so as to enable the selection of the best method for a given analytical task. Other chapters outline the theories of operation and describe the capability of the methods for quantitative and qualitative measurements of chemical composition, texture, and structure as applicable. This book is a valuable resource for materials analysts, engineers, biological scientists, laboratory administrators, and researchers.
Physical Methods, Instruments and Measurements theme is a component of the Encyclopedia of Physical Sciences, Engineering and Technology Resources which is part of the global Encyclopedia of Life Support Systems (EOLSS), an integrated compendium of twenty Encyclopedias. The Theme provides a complete survey of the present status of our knowledge of modern physical instruments and measurements. It is organized in the following main topics: Measurements and Measurement Standards; Sources of Particles and Radiation, Detectors and Sensors; Imaging and Characterizing – Trace Element Analysis; Technology of Physical Experiments; Applications of Measurements and Instrumentation which are then expanded into multiple subtopics, each as a chapter. These four volumes are aimed at the following five major target audiences: University and College Students, Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers and NGOs.
This book brings together an up-to-date account of instructions in the chemical and biological methods of analysis for antibiotics. It is helpful for all scientific workers in the diversified community of industrial, medical, academic, and governmental antibiotic laboratories.
This introductory text covers both traditional and contemporary topics relevant to analytical chemistry. Its flexible approach allows instructors to choose their favourite topics of discussion from additional coverage of subjects such as sampling, kinetic method, and quality assurance.