Main Chain Conformation and Anomalous Elution Behavior of Cylindrical Brushes As Revealed by GPC/MALLS, Light Scattering, and SFM
Citations Over TimeTop 1% of 1999 papers
Abstract
High molar mass polymacromonomers based on methacryloyl end-functionalized oligo methacrylates (Mn = 2410 g/mol) adopt the conformation of wormlike cylindrical brushes. Comparison of the absolute molar mass, Mw, determined by static light scattering and the contour length, Lw, of the molecules measured by SFM in the dry state revealed the length per vinylic main chain monomer of the cylindrical structure to be less than 0.1 nm, thus being much shorter than the maximum value of 0.25 nm. In solution this shrinkage could be quantified to 0.071 nm per monomer by Holtzer analysis of the scattering curves which in addition yielded the Kuhn statistical segment length lk = 120 nm. GPC MALLS investigations of such samples showed an anomalous elution effect: After a regular elution at small elution volumes the molar mass of the eluting molecules increased drastically with increasing elution volume. Fractionation by GPC showed that this effect is caused by a fraction of extremely high molar mass molecules which elute by an unknown mechanism rather than by size exclusion.
Related Papers
- → An SEC/MALS study of alternan degradation during size-exclusion chromatographic analysis(2009)60 cited
- → Hydrodynamic versus Size Exclusion Chromatography Characterization of Alternan and Comparison to Off-Line MALS(2010)48 cited
- → Molar mass distribution by size exclusion chromatography: Comparison of multi‐angle light scattering and universal calibration(2019)20 cited
- → Analysis of chitosan by gel permeation chromatography(2014)13 cited
- → Polysaccharide Characterization by Flow Field-Flow Fractionation-Multiangle Light Scattering: Initial Studies of Modified Starches(2002)23 cited