Isotope Ratio Mass Spectrometry of Light Gas-Forming Elements
Coordonnateur : Sevastyanov V.S.
Isotope Ratio Mass Spectrometry of Light Gas-Forming Elements exploresdifferent methods of isotope analysis, including spark, secondary ion, laser, glow discharge, and isotope ratio mass spectrometry. It explains how to evaluate the isotopic composition of light elements (H, C, N, O) in solid, liquid, and gaseous samples of organic and inorganic substances, as well as:
- Presents a universal, economical, simple, and rapid technique for sample preparation of organic substances to measure the isotopic composition of carbon
- Describes how to determine microbial mineralization of organic matter in soil and the effect of exogenous substrates on environmental sustainability
- Examines use of the isotopic composition of n-alkanes from continental vegetation to study the paleoclimate and plant physiology
- Proposes a systematic approach to identifying tobacco areas of origin and tobacco products based on data from the isotopic composition of light elements
- Discusses ways to detect doping drugs and suggests results assessment criteria based on determining reference intervals for endogenous markers
- Reviews methods of release of gases from inclusions of rocks and minerals for further implementation of isotope mass spectrometric analysis
- Considers use of optical isotope analyzers for determining the isotopic composition of carbon in CO2 and of hydrogen and oxygen in water
Providing a complete picture of the latest advancements in the field, Isotope Ratio Mass Spectrometry of Light Gas-Forming Elements aids readers from a variety of disciplines in identifying the fundamental processes in biological, ecological, and geological systems and in revealing the subtle features of many physicochemical processes and chemical transformations.
Isotope Ratio Mass Spectrometry: Devices, Methods, and Applications. Universal Method for Preparation of Liquid, Solid, and Gaseous Samples for Determining the Isotopic Composition of Carbon. Using Isotope Ratio Mass Spectrometry for Assessing the Metabolic Potential of Soil Microbiota. Study of the Isotopic Composition of Normal Alkanes of Continental Plants. Using Isotope Ratio Mass Spectroscopy for Analysis of Tobacco. Using Isotope Mass Ratio Spectrometry of Carbon in Doping Control. Isolation Methods in Isotope Geochemistry of Noble Gases. Using Laser Spectroscopy for Measuring the Ratios of Stable Isotopes.
V.S. Sevastyanov is vice head of the Department of Carbon Geochemistry at his Ph.D and big doctorate alma mater, the Vernadsky Institute of Geochemistry and Analytical Chemistry, Russian Academy of Science, Moscow. He also holds two masters degrees—one from Lomonosov Moscow State University and one from the Moscow Engineering Physics Institute. A widely published member of the Russian Mass Spectrometry Society and the ESIR, he has served as a senior scientist at several prestigious Russian laboratories. His current research interests include isotope ratio mass spectrometry, stable isotopic geochemistry and archeology, organic geochemistry, isotopic analysis of oil and gases, forensic science, and food analysis.
Date de parution : 08-2014
15.6x23.4 cm
Thèmes d’Isotope Ratio Mass Spectrometry of Light Gas-Forming... :
Mots-clés :
IRMS; Isotopic Composition; Laser Spectroscopy Stable Isotope; Carbon Isotopic Composition; Isolation Isotope Geochemistry Noble Gas; Sample Preparation; Isotope Ratio Mass Spectrometry Doping; Isotope Ratio; Isotope Ratio Mass Spectroscopy Tobacco; Isotope Mass Spectrometer; Isotopic Composition Alkane Plant; Isotopic Ratio Mass Spectrometer; Isotope Ratio Mass Spectrometry Soil; Isotope Fractionation; Isotopic Composition Nitrogen; δ13C Values; Isotopic Composition Oxygen; Isotope Ratios 13C; Isotopic Composition Hydrogen; Soil Microbiota; Isotopic Composition Carbon; Measured Isotopic Composition; Isotopic Composition Gas; Microbial Mineralization; Isotopic Composition Light Element; Oxidation Column; Isotope Analysis; Carbon Isotopic Characteristics; Light Gas-Forming Elements; Ion Source; Isotope Ratio Mass Spectrometry Use; Isotopic Analysis; Isotope Ratio Mass Spectrometry Application; CO2 Standard Gas; Isotope Ratio Mass Spectrometry Method; Noble Gases; Isotope Ratio Mass Spectrometry Device; Standard Gas; Silica Wool; Isotope Ratio Mass Spectrometry; Optical Cuvette; Dual Inlet; Quartz Ampoules; Exogenous Glucose