Electromigration properties of capillary columns with polystyrene coating as a stationary phase

A. Yu. Shmykov; A. N. Krasovskii; N. A. Bubis; A. L. Bulyanitsa; N. A. Esikova; L. M. Kuznetsov; V. E. Kurochkin

doi:10.1134/S1070427216120089

Electromigration properties of capillary columns with polystyrene coating as a stationary phase

Authors: Shmykov A.Y.¹, Krasovskii A.N.¹, Bubis N.A.¹, Bulyanitsa A.L.¹, Esikova N.A.¹, Kuznetsov L.M.², Kurochkin V.E.¹
Affiliations:
1. Institute for Analytical Instrumentation
2. St. Petersburg State University of Economics
Issue: Vol 89, No 12 (2016)
Pages: 1978-1984
Section: Various Technological Processes
URL: https://journals.rcsi.science/1070-4272/article/view/214535
DOI: https://doi.org/10.1134/S1070427216120089
ID: 214535

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Abstract

Relationships in variation of the surface energy of polystyrene coatings on melted quartz at varied polymer concentration in solution were refined by studying the functional chemical composition and surface structure of model coatings of atactic polystyrene on quartz plates and the electromigration properties of capillary columns with polystyrene coatings. The optimum concentration and temperature-kinetic conditions for preparing polystyrene coatings on quartz capillaries with controllable electrokinetic properties were determined.

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Electromigration properties of capillary columns with polystyrene coating as a stationary phase

Full Text

Abstract

About the authors

A. Yu. Shmykov

A. N. Krasovskii

N. A. Bubis

A. L. Bulyanitsa

N. A. Esikova

L. M. Kuznetsov

V. E. Kurochkin

Supplementary files