Chromatographia - Virtual Issue: Macromolecular Separations
In contradistinction to their small-molecule counterparts, macromolecular separations are generally concerned less with issues of peak capacity and more with the determination of structure-property relations. The polymeric analytes themselves can possess dispersities along more than one physico-chemical dimension having, e.g., broad molar mass distributions as well as broad chemical composition and/or branching distributions. Multi-detector size-based separations, be they column- or channel-based, remain the preferred methods by which to obtain many of these relations. The reviews and original papers presented in this Virtual Issue on Macromolecular Separations highlight some of the diverse work published in CHROMATOGRAPHIA during the last two years in the area of polymer chromatography. We expect contributions to the journal in these areas to continue to grow and welcome your submissions.
André M. Striegel
Scientific Editor, Chromatographia
Read all articles in the Virtual Issue
André M. Striegel
Introducing the Inaugural Chromatographia Virtual Issue: Macromolecular Separations
André M. Striegel
Viscometric Detection in Size-Exclusion Chromatography: Principles and Select Applications
Chunxiao Shi, Selim Gerişlioğlu, Chrys Wesdemiotis
Ultrahigh Performance Liquid Chromatography Interfaced with Mass Spectrometry and Orthogonal Ion Mobility Separation for the Microstructure Characterization of Amphiphilic Block Copolymers
Adrian Boborodea, Francis M. Mirabella, Steve O’Donohue
Characterization of Low-Density Polyethylene in Dibutoxymethane by High-Temperature Gel Permeation Chromatography with Triple Detection
Julien Gigault, Emmanuel Mignard, Hind El Hadri, Bruno Grassl
Measurement Bias on Nanoparticle Size Characterization by Asymmetric Flow Field-Flow Fractionation Using Dynamic Light-Scattering Detection
Elena Uliyanchenko
Applications of Hyphenated Liquid Chromatography Techniques for Polymer Analysis
André M. Striegel
Specific Refractive Index Increment (∂n/∂c) of Polymers at 660 nm and 690 nm
Xiaoxia Li, Kyung Ho Row
Separation of Polysaccharides by SEC Utilizing Deep Eutectic Solvent Modified Mesoporous Siliceous Materials