Advances in Ion Mobility-Mass Spectrometry: Fundamentals, Instrumentation and Applications Comprehensive Analytical Chemistry Series
Ion Mobility Spectrometry, Volume 83 will focuses on new trends, methods and instrumentation in the field, starting from the innovations of each technique, to the most progressive challenges of IM-MS. Chapters includes section on Recent advances in IM-MS, IM-MS Principles and Theory, IM-MS Applications and Instrumentation, and the Future of IM-MS.
1. Recent advances in IM-MSW. Alexander Donald2. IM-MS Principles and theoryi) Fundamentals of ion mobilityChristian Bleiholderii) Differential ion mobilityGary Eicemaniii) Modelling collision cross sectionsJames S. Prell3. IM-MS Applications and instrumentationi) Metabolomics and proteomicsErin Bakerii) Structural biologyTimothy M. Allison and Michael Landrehiii) ImagingMarten F. Sneliv) Structural identification of aromatic compoundsSunghwan Kimv) Chiral analysisW. Alexander Donaldvi) Supramolecular systemsHugh I. Kimvii) Reactive drift tubes and tandem IMGary Eicemanviii) Dynamic clustering and ion microsolvationW. Scott Hopkins4. Future of IM-MSW. Alexander Donald
The target readers are researchers, practitioners, consultants working in any field in which ion mobility mass spectrometry is technique of choice, and are looking for up-to-date and complete information on this topic.
- Presents the latest advancements in IM-MS that are essential for new applications
- Helps readers understand the state-of-the-art in the currently available IM-MS interfaces and their principle uses
- Provides information on different IM-MS instrumentation
- Delves into key applications of IM-MS
Date de parution : 01-2019
Ouvrage de 278 p.
15x22.8 cm
Thème d’Advances in Ion Mobility-Mass Spectrometry... :
Mots-clés :
Ion mobility; Mass spectrometry; Analytical chemistry; Biophysical chemistry; Bioanalytical chemistry; Environmental chemistry; Supramolecular chemistry; Collision cross sections; Metabolomics; Proteomics; Persistent organic compounds; Mass spectrometry imaging; Chiral analysis; Differential ion mobility