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Entropic trapping of macromolecules by mesoscopic periodic voids in a polymer hydrogel

Lei Liu, Pusheng Li and Sanford A. Asher ()
Additional contact information
Lei Liu: University of Pittsburgh
Pusheng Li: University of Pittsburgh
Sanford A. Asher: University of Pittsburgh

Nature, 1999, vol. 397, issue 6715, 141-144

Abstract: Abstract The separation of macromolecules such as polymers and DNA by means of electrophoresis, gel permeation chromatography or filtration exploits size-dependent differences in the time it takes for the molecules to migrate through a random porous network. Transport through the gel matrices, which usually consist of full swollen crosslinked polymers1,2,3,4,5,6,7,8,9,10,11, depends on the relative size of the macromolecule compared with the pore radius. Sufficiently small molecules are thought to adopt an approximately spherical conformation when diffusing through the gel matrix1, whereas larger ones are forced to migrate in a snake-like fashion3,4,5. Molecules of intermediate size, however, can get temporarily trapped in the largest pores of the matrix, where the molecule can extend and thus maximize its conformational entropy. This ‘entropic trapping’ is thought to increase the dependence of diffusion rate on molecular size6,7,8,9,10,11,12,13,14,15,16. Here we report the direct experimental verification of this phenomenon. Bragg diffraction from a hydrogel containing a periodic array of monodisperse water voids confirms that polymers of different weights partition between the hydrogel matrix and the water voids according to the predictions of the entropic trapping theory. Our approach might also lead to the design of improved separation media based on entropic trapping.

Date: 1999
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DOI: 10.1038/16426

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