High performance liquid capillary electrophoresis

Volpi, N. Separation of capsular polysaccharide K4 and defructosylated K4 derived disaccharides by high-performance capillary electrophoresis and high-performance liquid chromatography. Electrophoresis, 24, 1063, 2003. 

Helmja, K., Vaher, M., Ptissa, T., Raudsepp, R, and Kaljurand, M. 2008. Evaluation of antioxidative capability of the tomato (Solarium lycopersicum) skin constituents by capillary electrophoresis and high-performance liquid chromatography. Electrophoresis 29 3980-3988. 

Figure 9.6 Surfer-generated chromatoeletropherogram of fluorescamine-labeled tryptic digest of ovalbumin. Reprinted from Analytical Chemistry, 62, M. M. Bushey and J. W. Jorgenson, Automated instrumentation for comprehensive two-dimensional high-performance liquid chromatography/capillary zone electrophoresis, pp 978-984, copyright 1990, with permission from the American Chemical Society.

PACKED CAPILLARY REVERSE PHASE HIGH PERFORMANCE LIQUID CHROMATOGRAPHY-CAPILLARY ZONE ELECTROPHORESIS... 

H. Yamamoto, T. Manabe and T. Okuyama, Apparatus for coupled high-performance liquid chromatography and capillary electrophoresis in the analysis of complex protein mixtures , 7. Chromatogr. 515 659-666 (1990). 

LEE B L and ONG c N (2000) Comparative analysis of tea catechins and theaflavins by high-performance liquid chromatography and capillary electrophoresis , J Chromatog A, 881 (1-2), 439-47. 

The spectrum of new analytical techniques includes superior separation techniques and sophisticated detection methods. Most of the novel instruments are hyphenated, where the separation and detection elements are combined, allowing efficient use of materials sometimes available only in minute quantities. The hyphenated techniques also significantly increase the information content of the analysis. Recent developments in separation sciences are directed towards micro-analytical techniques, including capillary gas chromatography, microbore high performance liquid chromatography, and capillary electrophoresis. 

Capillary electrophoresis employing chiral selectors has been shown to be a useful analytical method to separate enantiomers. Conventionally, instrumental chiral separations have been achieved by gas chromatography and by high performance liquid chromatography.127 In recent years, there has been considerable activity in the separation and characterization of racemic pharmaceuticals by high performance capillary electrophoresis, with particular interest paid to using this technique in modem pharmaceutical analytical laboratories.128 130 The most frequently used chiral selectors in CE are cyclodextrins, crown ethers, chiral surfactants, bile acids, and protein-filled... 

Khaledi, M. G., Micelles as separation media in high-performance liquid chromatography and high-performance capillary electrophoresis overview and perspective, /. Chromatogr. A, 780, 3, 1997. 

Huber, C.G., Premstaller, A. (1999). Evaluation of volatile eluents and electrolytes for high-performance liquid chromatography-electrospray ionization mass spectrometry and capillary electrophoresis-electrospray ionization mass spectrometry of proteins. I. Liquid chromatography. J. Chromatogr. A 849, 161-173. 

High performance liquid chromatography (HPLC) and capillary electrophoresis (CE) are two instrumental separation techniques that are applicable to the separation of proteins and peptides. The advantage of HPLC and CE techniques is that they afford the analyst the freedom to resolve a complex mixture by different routes employing different... 

Ehala, S., Kaljurand, M., Kudrjashova, M., Vaher, M. (2004). Stroboscopic sampling in comprehensive high-performance liquid chromatography-capillary electrophoresis via a pneumatic sampler. Electrophoresis 25, 980-989. 

Issaq, H.J., Chan, K.C., Cheng, S.L., Qingho, L. (2001). Multidimensional high performance liquid chromatography-capillary electrophoresis separation of a protein digest an update. Electrophoresis 22, 1133-1135. 

Yang, X.H., Zhang, X.M., Li, A.Z., Zhu, S.Y., Huang, Y.P (2003). Comprehensive two-dimensional separations based on capillary high-performance liquid chromatography and microchip electrophoresis. Electrophoresis 24, 1451-1457. 

Heinig, K., Vogt, C., Werner, G. (1998). Separation of nonionic surfactants by capillary electrophoresis and high-performance liquid chromatography. Anal. Chem. 70(9), 1885-1892. 

Most of the reported methods of analysis of valproic acid and its sodium salt in biological fluids rely on the use of chromatography, especially gas chromatography, although high performance liquid chromatography (HPLC) is also reported. Other methods, such as flow injection analysis, enzyme-immunoassay, fluorescence-polarization capillary electrophoresis, and potentiometry are sometimes used. The reported methods can be classified as follows. 

Parallel to the development of mass spectrometric instrumentation and methodologies, the improvements of separation techniques, such as gas chromatography (GC), high performance liquid chromatography (HPLC) and capillary electrophoresis (CE), and of their coupling with MS allowed the study of complex mixtures, that are generally encountered in most studies. 

Figure 2.1 Mass spectrometric approach. Dl, direct inlet GC, gas chromatography HPLC, high performance liquid chromatography CZE, capillary zone electrophoresis El, electron ionization Cl, chemical ionization ESI, electrospray ionization DESI, desorption electrospray ionization APCI, atmospheric pressure chemical ionization MALDI, matrix assisted laser desorption ionization B, magnetic analyzer E, electrostatic analyzer...

Identification and quantification of natural dyes need high performance analytical techniques, appropriate for the analysis of materials of complicated matrices containing a small amount of coloured substances. This requirement perfectly fits coupling of modern separation modules (usually high performance liquid chromatography in reversed phase mode, RPLC, but also capillary electrophoresis, CE) with selective detection units (mainly mass spectrometer). 

Microfluidics evolved from micro-analytical methods in capillary format such as capillary electrophoresis, high-performance liquid chromatography, and gas chromatography, and has successfully revolutionized chemical and biochemical... 

In the last decade, capillary electrophoresis (CE) has become one of the most powerful and conceptually simple separation techniques for the analysis of complex mixtures. The main reasons are its high resolution, relatively short analysis times, and low operational cost when compared to high-performance liquid chromatography (HPLC). The ability to analyze ultrasmall volume samples in the picoliter-to-nanoliter ranges makes it an ideal analytical method for extremely volume-limited biological microenvironments. 

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