| 1 |
A robust sheath-flow CE-MS interface for hyphenation with Orbitrap MS
Sauer F, Sydow C, Trapp O
Electrophoresis, 41(15), 1280, 2020 |
| 2 |
Interinstrumental method transfer of a capillary electrophoretic separation of angiotensin II and five derivatives: Evaluation and update of earlier developed guidelines
De Cock B, Van Eeckhaut A, Stiens J, Mangelings D, Vander Heyden Y
Electrophoresis, 36(21), 2658, 2015 |
| 3 |
Presence of free amino acids in protein hydrolysate during electroseparation of peptides: Impact on system efficiency and membrane physicochemical properties
Suwal S, Roblet C, Amiot J, Bazinet L
Separation and Purification Technology, 147, 227, 2015 |
| 4 |
An original use of size exclusion-HPLC for predicting the performances of batch ultrafiltration implemented to enrich a complex protein hydrolysate in a targeted bioactive peptide
Kapel R, Klingenberg F, Framboisier X, Dhulster P, Marc I
Journal of Membrane Science, 383(1-2), 26, 2011 |
| 5 |
Automation of nanoflow liquid chromatography-tandem mass spectrometry for proteome and peptide profiling analysis by using a monolithic analytical capillary column
Jiang XG, Dong J, Wang FJ, Feng S, Ye ML, Zou HF
Electrophoresis, 29(8), 1612, 2008 |
| 6 |
Prediction of electrophoretic mobilities of peptides in capillary zone electrophoresis by quantitative structure-mobility relationships using the offord model and artificial neural networks
Jalali-Heravi M, Shen Y, Hassanisadi M, Khaledi MG
Electrophoresis, 26(10), 1874, 2005 |
| 7 |
Separation of small peptides by electrochromatography on silica-based reversed phases and hydrophobic anion exchange phases
Steiner F, Scherer B
Electrophoresis, 26(10), 1996, 2005 |
| 8 |
Removal of polyphenols and recovery of proteins from alfalfa white protein concentrate by ultrafiltration and adsorbent resin separations
D'Alvise N, Lesueur-Lambert C, Fertin B, Dhulster P, Guillochon D
Separation Science and Technology, 35(15), 2453, 2000 |
