Category: Free-Flow Electrophoresis

154. Kochmann, S.; Krylov, S.N. Image processing and analysis system for development and use of free flow electrophoresis chips. Lab on Chip 2017, 17, 256-266. (PDF file)

150. Kochmann, S.; Agostino, F.; LeBlanc, J.C.Y.; Krylov, S.N. The hyphenation of production-scale free-flow electrophoresis to electrospray ionization mass spectrometry using a highly conductive background electrolyte. Analytical Chemistry 2016, 88, 8415-8420. (PDF file)

138. Agostino, F.; Krylov, S.N. Advances in steady-state continuous-flow purification by small-scale free-flow electrophoresis. Trends in Analytical Chemistry 2015, 72, 68-79. (PDF file)

126. Agostino, F.; Cherney, L.T.; Kanoatov, M.; Krylov, S.N. Reducing pH gradients in free-flow electrophoresis. Analytical Chemistry 2014, 86, 5656-5660. (PDF file)

116. Agostino, F.J.; Cherney, L.T.; Galievsky, V.; Krylov, S.N. Steady-state continuous-flow purification by electrophoresis. Angewandte Chemie International Edition 2013, 52, 7256-7260. (Online)

85. Agostino, F.J.; Evenhuis, C.J.; Krylov, S.N. Milli-free flow electrophoresis (mFFE): I. Fast prototyping of mFFE devices. Journal of Separation Science 2011, 34, 556-564. (PDF file)

79. Evenhuis, C.J.; Okhonin, V; Krylov, S.N. Non-orthogonal micro-free flow electrophoresis: from theory to design. Analytica Chimica Acta 2010, 674, 102-109. (PDF file)

76. Okhonin, V.; Evenhuis, C.J.; Krylov, S.N. Non-orthogonal-to-the-flow electric field improves resolution in the orthogonal direction: hidden reserves for combining synthesis and purification in continuous flow. Analytical Chemistry 2010, 82, 1183-1185. (PDF file)