Atomic Spectroscopy in Elemental Analysis
1st Edition
Published on 10. December 2003
Book
Hardback
310 pages
978-0-8493-2817-6 (ISBN)
Unfortunately, price unknown
Article is exhausted; no reprint
Description
Atomic spectroscopy techniques form an essential part of any elemental analysis laboratory. This book gathers together under one cover the most important techniques of atomic spectroscopy currently available. Each chapter presents the key principles of a technique, describes the associated instrumentation, and discusses representative applications.Atomic Spectroscopy in Elemental Analysis begins with a chapter on method validation relevant to all of the techniques discussed later. Each chapter that follows focuses on a particular technique and was contributed by an expert in that area. Inductively coupled plasma atomic emission (ICP-AES), glow discharge optical emission (GD-OES), microwave plasma atomic emission, X-ray fluorescence (XRF), electrothermal atomic absorption, and flame atomic absorption spectroscopy all receive due attention. The final chapter on chemometrics considers experiment design, multivariate statistics, and data analysis as they apply to atomic spectroscopy.Atomic Spectroscopy in Elemental Analysis is a one-stop resource for atomic spectroscopy techniques, instrumentation, and applications that anyone working in the field of elemental analysis will want on their reference shelf.
More details
Series
Language
English
Publishing group
Taylor & Francis
Target group
Professional and scholarly
Analytical chemists, environmental scientists, earth scientists, food scientists, and petrochemists.
Dimensions
Height: 229 mm
Width: 152 mm
Weight
753 gr
ISBN-13
978-0-8493-2817-6 (9780849328176)
Schweitzer Classification
Person
Content
METHOD VALIDATION FOR ATOMIC SPECTROSCOPY, Michael Cullen and Vicki BarwickThe ProcessCreate the Validation PlanPrecisionBiasRuggednessLimit of Detection, Limit of Quantification and SelectivityThe Working Range and LinearityEquipment QualificationAssessment of UncertaintyHas the Method Met the Requirements set out in the Validation Plan?INDUCTIVELY COUPLED PLASMA MASS SPECTROMETRY, Ed McCurdy and Don PotterHistory and DevelopmentInstrumentationOperationApplicationsINDUCTIVELY COUPLED PLASMA ATOMIC EMISSION SPECTROMETRY, Stephen J. Hill and Andrew FisherTheoryInstrumentationApplicationsAlternative PlasmasChemometrics and Data ManipultionConclusionsANALYTICAL GLOW DISCHARGES, Norbert Jakubowski, Annemie Bogaerts, and Volker HoffmannBasic Principles of the Analytical GDGlow Discharge Optical Emission SpectroscopyGlow Discharge Mass SpectrometryConclusionMICROWAVE PLASMA ATOMIC EMISSION SPECTROSCOPY, Peter C. UdenMicrowave-Induced Plasmas (MIP)MIPS as Chromatographic DetectorsGC-AED Detection of Non-Metallic ElementsGC-AED Detection of Metallic ElementsIsotope Detection by GC-AEDAnalytical Derivatization in GC-AEDLiquid and Supercritical Fluid Chromatographic Applications of AED DetectionThe Role and Future Development of MIP-AED Chromatographic DetectionX-RAY FLUORESCENCE ANALYSIS (XRD), Bruno VrebosPhysics of X-Ray Absorption and ExcitationPrinicipal Components of Wavelength Dispersive SRF SepctrometersPrinicpal Components of EDSApplicationsNotes on Specimen PreparationConclusionELECTROTHERMAL ATOMIC ABSORPTION SPECTROMETRY, Albert Kh. GilmutdinovGraphite AtomizersGraphite Furnace AnalysisElectrothermal AtomizationInterferences in Graphite Furnace AASThe Relative Merits of ETAASFLAME ATOMIC ABSORPTION SPECTROSCOPY, INCLUDING HYDRIDE GENERATION AND COLD VAPOR TECHNIQUES, Julian F. Tyson and Emily YourdBasic PrinciplesHow do FAAS Instruments WorkInstruments for Hydride GenerationInstruments for Cold Vapor Mercury DeterminationInstruments for AFSLimitations to PerformanceHow to get the Right Answer?Some Practical PointsSample Preparation IssuesRepresentative ApplicationsCHEMOMETRICS IN ELEMENTAL ANALYSIS, Michael J. Adams and Melissa J. RomeoExperimental Design and OptimizationMulti-Variate StatisticsExploratory Data AnalysisDiscriminant AnalysisCalibration ModelsConclusion