Issue 46, 2017

Linear poly(ethylene imine)s: true molar masses, solution properties and conformation

Abstract

In-depth characterization of pharmaceutically relevant polymers plays a pivotal role in many areas, including nanoscience, gene therapy, analytical and polymer chemistry etc. Notwithstanding substantial efforts spent in this area, there are still unresolved challenges and one of the most demanding problems is the determination of absolute molar masses of a broad range of biocompatible cationic polymers. Hereby, we present a combined analytical approach for a distinct and self-consistent characterization of a series of linear poly(ethylene imine)s (PEIs) consisting of six in-house prepared PEIs (0.9 kDa < Mtheor < 250 kDa) and three commercially available linear PEIs (Polyscience labeled as 2.5 kDa, 25 kDa, and 250 kDa). The polymers were studied, in 0.2 M NaBr methanol, by the methods of molecular hydrodynamics: analytical ultracentrifugation, intrinsic viscosity and translational diffusion measurements. Absolute values of the molar masses were evaluated by the classical sedimentation-diffusion analysis resulting in the following range: 1.1 kDa < M < 13.9 kDa. It was demonstrated that the molar masses reported by the manufacturer, as well as theoretical and/or molar masses evaluated by common SEC analysis, are significantly overestimated. The complete set of Kuhn–Mark–Houwink–Sakurada scaling relations shows linear trends over the whole range of the molar masses, whilst the determined scaling indices virtually correspond to the homologous series characterized by a coil conformation ([η] = 0.255 × M0.56; s0 = 0.015 × M0.48; D0 = 994 × M−0.52). The conformational characteristics of LPEI, i.e. equilibrium rigidity (the Kuhn segment length) and the diameter of the PEI chains, were evaluated for the first time and constitute A = 1.9 ± 0.6 nm and d = 0.4 ± 0.2 nm, respectively. The presented self-sufficient analytical approach covers an important area of thorough polymer characterization by nowadays alternative but fundamental hydrodynamic methods allowing for complete structural and molecular analysis of almost any macromolecules in solution.

Graphical abstract: Linear poly(ethylene imine)s: true molar masses, solution properties and conformation

Supplementary files

Article information

Article type
Paper
Submitted
22 Sep 2017
Accepted
27 Oct 2017
First published
30 Oct 2017

Polym. Chem., 2017,8, 7169-7179

Linear poly(ethylene imine)s: true molar masses, solution properties and conformation

I. Perevyazko, A. S. Gubarev, L. Tauhardt, A. Dobrodumov, G. M. Pavlov and U. S. Schubert, Polym. Chem., 2017, 8, 7169 DOI: 10.1039/C7PY01634D

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