Gyula Vigh
Affiliations: | Texas A & M University, College Station, TX, United States |
Area:
Analytical Chemistry, Chemical EngineeringGoogle:
"Gyula Vigh"Mean distance: (not calculated yet)
Children
Sign in to add trainee| Pavel V. Glukhovskiy | grad student | 2000 | Texas A & M |
| Alex D. Sokolowski | grad student | 2000 | Texas A & M |
| Wenhong Zhu | grad student | 2000 | Texas A & M |
| Dawn M. Maynard | grad student | 2001 | Texas A & M |
| Sanjiv K. Lalwani | grad student | 2004 | Texas A & M |
| Shulan Li | grad student | 2004 | Texas A & M |
| Silvia A. Salinas | grad student | 2004 | Texas A & M |
| Michael Brent Busby | grad student | 2005 | Texas A & M |
| Evan E. Shave | grad student | 2005 | Texas A & M |
| Peniel J. Lim | grad student | 2006 | Texas A & M |
| Kingsley C. Nzeadibe | grad student | 2006 | Texas A & M |
| Helen C. Craver | grad student | 2007 | Texas A & M |
| Joseph B. Sinajon | grad student | 2008 | Texas A & M |
| Robert Yates North | grad student | 2009 | Texas A & M |
| Edward Tutu | grad student | 2010 | Texas A & M |
| Ming-Chien Li | grad student | 2012 | Texas A & M |
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Publications
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| Krenkova J, Liskova M, Cmelik R, et al. (2020) Multi-cationic aminopyrene-based labeling tags for oligosaccharide analysis by capillary electrophoresis-mass spectrometry. Analytica Chimica Acta. 1095: 226-232 |
| Sázelová P, Koval D, Severa L, et al. (2019) Determination of binding constants of multiple charged cyclodextrin complexes by ACE using uncorrected and ionic strength corrected actual mobilities of the species involved. Electrophoresis |
| Ansorge M, Gaš B, Boublík M, et al. (2019) CE determination of the thermodynamic pKa values and limiting ionic mobilities of 14 low molecular mass UV absorbing ampholytes for accurate characterization of the pH gradient in carrier ampholytes-based IEF and its numeric simulation. Electrophoresis |
| Dvořák M, Svobodová J, Dubský P, et al. (2015) Equivalent peak resolution: characterization of the extent of separation for two components based on their relative peak overlap. Electrophoresis. 36: 646-54 |
| Svobodová J, Beneš M, Dubský P, et al. (2012) Simulation of the effects of complex-formation equilibria in electrophoresis: III. Simultaneous effects of chiral selector concentration and background electrolyte pH. Electrophoresis. 33: 3012-20 |
| Estrada R, Vigh G. (2012) Comparison of charge state distribution in commercially available sulfated cyclodextrins used as chiral resolving agents in capillary electrophoresis. Journal of Chromatography. A. 1226: 24-30 |
| Glukhovskiy P, Vigh G. (2012) Analytical- and preparative-scale isoelectric focusing separation of enantiomers. Analytical Chemistry. 71: 3814-20 |
| North RY, Vigh G. (2011) Preparative-scale isoelectric trapping by recursive electrophoresis in a compartmentalized system having orthogonal primary and secondary pH gradients. Part 2--operation in cascade mode. Electrophoresis. 32: 2805-8 |
| North RY, Vigh G. (2011) Preparative-scale isoelectric trapping by recursive electrophoresis in a compartmentalized system having orthogonal primary and secondary pH gradients. Part 1--construction and standard operation. Electrophoresis. 32: 2797-804 |
| Tutu E, Vigh G. (2011) Synthesis, analytical characterization and initial capillary electrophoretic use in an acidic background electrolyte of a new, single-isomer chiral resolving agent: heptakis(2-O-sulfo-3-O-methyl-6-O-acetyl)-β-cyclodextrin. Electrophoresis. 32: 2655-62 |