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Of related interest... LASER IONIZATION MASS ANALYSIS Edited by Akos Vertes, Renaat Gijbels, and Fred Adams Edited by three of the field's leading authorities and featuring contributions from thirteen chemists, this book offers a comprehensive look at the new hardware and investigative possibilities of this form of analysis. The book clearly links theory with applications as well as hardware with hard science. Among topics covered are lasers in mass spectrometry, including instrumentation basic to ion generation for mass analysis; methods of using low and medium laser irradiance; high laser…mehr

Produktbeschreibung
Of related interest... LASER IONIZATION MASS ANALYSIS Edited by Akos Vertes, Renaat Gijbels, and Fred Adams Edited by three of the field's leading authorities and featuring contributions from thirteen chemists, this book offers a comprehensive look at the new hardware and investigative possibilities of this form of analysis. The book clearly links theory with applications as well as hardware with hard science. Among topics covered are lasers in mass spectrometry, including instrumentation basic to ion generation for mass analysis; methods of using low and medium laser irradiance; high laser irradiance regime; exotic applications of laser ionization mass spectrometry in space research. 1993 (0-471-53673-3) 584 pp. STATISTICAL METHODS IN ANALYTICAL CHEMISTRY --Peter C. Meier and Richard E. Zünd Designed to address the practical day-to-day needs of lab chemists, this practical guide demonstrates the ways in which statistics can be used effectively in analytical work. Chapters 1 and 2 present classical statistical techniques, illustrating them in the context of simple situations. Chapter 3 expands the discussion into ancillary techniques, such as exploratory data analysis, made possible with computing. Chapter 4 presents a number of complex examples that might confront the analyst, while emphasizing the conflicting demands imposed on a possible solution. Chapter 5 presents core sections of programs which complement the equations. Complete with a floppy disk of ready-made programs and data files, here is a clear, real-world introduction to maximizing statistical tools in the lab. 1993 (0-471-58454-1) 352 pp. PHOTOCHEMICAL VAPOR DEPOSITION--J. G. Eden Here is an extremely useful overview of photochemical vapor deposition, both its characteristics and potential. The book focuses on the properties of films that have been created by this versatile method and the conditions under which they are grown. The author works from the position that while photochemical vapor deposition (photo-CVD) is not the solution to all low-temperature deposition methodologies, it does provide an added dimension of flexibility to and control over the growth process and has proven to be valuable for those materials and growth steps in device fabrication that are sensitive to the processing temperature. Whenever applicable, the properties of electronic devices incorporating photo-CVD films are presented and numerous tables detail the deposition parameters as well as electrical and structural properties of the films of specific materials. 1992 (0-471-55083-3) 208 pp.
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Autorenporträt
ANDREAS MANDELIS is Director of the Photothermal and Optoelectronic Diagnostics Laboratory at the University of Toronto and Professor of Mechanicaland Electrical Engineering. His current research interests include areas of solid-state thermal-wave gas sensors, novel photothermal instrumentation and techniques, the physics of thermal waves and tomographic developments, deep level electronic defects and the study of nonradiative quantum efficiencies in solid-state laser materials. He is the author of more than 100 published papers and the editor of a number of well-received books on photothermal and photoacoustic science and technology.He is on the Executive Committee of the Instrumentation and Measurement Science Topical Group of the American Physical Society and a member of the Center for Hydrogen and Electrochemical Studies of the University of Toronto. Dr. Mandelis holds a BS in physics from Yale University and advanced degrees in applied physics and material science from Princeton University. CONSTANTINOS CHRISTOFIDES is Assistant Professor in the Department of Natural Sciences at the University of Cyprus, in Nicosia. His major interests include the development of new devices, applied optics, advanced materials, and solar energy. He is a member of the American Physical Society, the Canadian Association of Physicists, the Spectroscopic Society of Canada, and the International Solar Energy Society. Dr. Christofides holds advanced degrees in physics, applied physics and energy physics from Grenoble University, in France. In addition, he was a postdoctoral fellow at Sherbrooke University, and a research associate and lecturer with the Photothermal and Optoelectronic Diagnostics Laboratory at the University of Toronto.