Practical Aspects of Ion Trap Mass Spectrometry : Chemical, Environmental, and Biomedical Applications (Modern Mass Spectrometry) / March, Raymond E. (EDT)/ Todd, John F. J. (EDT)

Practical Aspects of Ion Trap Mass Spectrometry : Chemical, Environmental, and Biomedical Applications (Modern Mass Spectrometry) 〈003〉

ポイントキャンペーン

Practical Aspects of Ion Trap Mass Spectrometry : Chemical, Environmental, and Biomedical Applications (Modern Mass Spectrometry) 〈003〉

March, Raymond E. (EDT)/ Todd, John F. J. (EDT)

CRC Pr I Llc（1995/08発売）

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製本 Hardcover:ハードカバー版／ページ数 518 p.
言語 ENG
商品コード 9780849382512
DDC分類 539.70287

基本説明

This volume discusses the fundamentals of ion trap theory, design, and operation; practical ion trap technology; applications involving small molecules; and the environmental and biomedical applications.

Full Description

By delivering concentrated information in three different volumes, the editors of the Practical Aspects of Ion Trap Mass Spectrometry mini-series present in-depth reviews on mainstream developments in each active and popular area. Contributing authors provide concise reports illustrating successful approaches to difficult analytical problems across the basic scientific disciplines.Volume three, Chemical, Environmental, and Biomedical Applications, presents a coherent picture of research and applications in the ion trapping field. It examines tandem mass spectrometry, the principal mode of ion trap operation, where one stage of mass selectivity follows another in the same region of space. This volume discusses the fundamentals of ion trap theory, design, and operation; practical ion trap technology; applications involving small molecules; and the environmental and biomedical applications.

FundamentalsIon Trap Theory, Design, and Operation, J.F.J. ToddIntroductionTheory and Operating Principles of the Ion Trap Mass SpectrometerSome Practical Improvements in Ion Trap OperationIon IsolationChemical IonizationExtension of the Mass/Charge RangeHigh Resolution Mass Spectra with the Ion TrapTandem Mass SpectrometryApplicationsConclusionReferencesIon Traps as Tandem Mass Spectrometers, R.E. March, R.J. Strife, and C.S. CreaserIntroductionInstrumentationElements of Ion Trap TheoryIon Formation and IsolationThe Ion Activation and/or Ion Reaction PeriodAnalytical Scan RatePractical Aspects of Tandem Mass SpectrometryTandem Mass Spectrometry Case HistoriesConclusionPractical Aspects of Laser Desorption and PhotodissociationReferencesReview of Modern Ion Trap Research, J. Charles and G.L. GlishIntroductionIonization TechniquesOperation of the Ion TrapTandem Mass SpectrometryConclusionReferencesPractical Ion Trap TechnologyPractical Ion Trap Technology: GC/MS and GC/MS/MS, N.A. Yates, M.M. Booth, J.L. Stephenson, Jr., and R.A. YostIntroductionInstrumentation and Methods of OperationGC/MS and GC/MS/MS ApplicationsOperational Principles for Ion Trap GC/MSAdvances in Ion Trap GC/MS and GC/MS/MSBenchtop GC/MS/MS InstrumentsSummary and ConclusionReferencesLiquid Chromatography/Mass Spectrometry, B.L. Kleintop, D.M. Eades, J.A. Jones, and R.A. YostIntroductionMembrane IntroductionThermosprayParticle BeamConclusionsReferencesIon Spray Liquid Chromatography/Mass Spectrometry and Capillary Electrophoresis/Mass Spectrometry on a Modified Benchtop Ion Mass Spectrometer, A. Mordehai, H.K. Lim, and J.D. HenionIntroductionResults and DiscussionSummary and ConclusionsAcknowledgmentsReferencesChemical Ionization in Ion Trap Mass Spectrometry, C.S. CreaserIntroductionPrinciples of Chemical IonizationChemical Ionization in the Ion TrapSelective Chemical Ionization ProceduresApplicationsReferencesApplications Involving Small MoleculesEnergetics and Collision-Induced Dissociation Efficiencies in the Quadrupole Ion Trap Mass Spectrometer, J.V. Johnson, C. Basic, R.E. Pedder, B.L. Kleintop, and R.A. YostIntroductionIon Motion in a Quadrupole Ion TrapIon Activation in a QITMSCalculations of Trapped Ion EnergiesExperimental Determination of Trapped Ion EnergiesResonant Excitation in the QITMS: CID Energetics and EfficienciesConclusionsReferencesIon Structure Studies in the Quadrupole Ion Trap, S. Catinella and P. TraldiIntroductionDaughter Ion Spectroscopy by Ion Trap Mass Spectrometry (ITMS)ApplicationsReferencesAtmospheric Glow Discharge/Ion Trap Mass Spectrometry, M.L. Langford and J.F.J. ToddIntroductionTheoretical Features of the Glow Discharge MechanismGlow Discharge/Ion Trap Mass SpectrometersReferencesDynamically Programmed Scans, A.M. Franklin and J.F.J. ToddIntroductionThe "Scan" and "Exp" ProgramsDynamically Programmed Scanning SoftwareProcessing of ITMSTM Data FilesApplicationsConclusionsReferencesEnvironmental and Biomedical ApplicationsEnvironmental Analyses, W.L. BuddeIntroductionMass Spectrometer Performance StandardsThe GC/Ion Trap DetectorAnalytical Approaches in Environmental AnalysesDrinking Water Analyses in the United StatesMembrane Mass SpectrometryField ApplicationsVolatile Air PollutantsLess-Volatile Organic AnalytesNon-Volatile CompoundsReferencesMulti-Residue Pesticide Analysis, T. Cairns, K.S. Chiu, D. Navarro, and E. SiegmundDriving Force for New ApproachIntroductionExperimentalChemical Ionization of PesticidesAnalytical Approach to Pesticide AnalysisConclusionsReferencesElectrospray/Ion Trap Mass Spectrometry: Applications to Trace Analysis, H.-L. Lin and R.D. VoyksnerIntroductionOptimization of Coupling of Electrospray to the ITMSApplication of Electrospray-ITMS to Environmental AnalysisApplication of LC/Electrospray/ITMS for the Determination of NeuropeptidesConclusions and Future OutlookAcknowledgmentsReferencesOTI 1: 167