| 1 |
Intraparticle and interstitial flow in wide-pore superficially porous and fully porous particles
Schure MR, Maier RS, Shields TJ, Wunder CM, Wagner BM
Chemical Engineering Science, 174, 445, 2017 |
| 2 |
Packed-microtubes model for flowthrough chromatography of protein
Li W, Li Y, Sun Y
Chemical Engineering Science, 60(17), 4780, 2005 |
| 3 |
Modelling and simulation in chemical engineering: Tools for process innovation
Rodrigues AE, Minceva M
Computers & Chemical Engineering, 29(6), 1167, 2005 |
| 4 |
Effects of adsorption kinetics and surface heterogeneity on band spreading in perfusion chromatography - a network model analysis
Geng A, Loh KC
Chemical Engineering Science, 59(12), 2447, 2004 |
| 5 |
High-level expression and purification of human xylosyltransferase I in High Five insect cells as biochemically active form
Kuhn J, Muller S, Schnolzer M, Kempf T, Schon S, Brinkmann T, Schottler M, Gotting C, Kleesiek K
Biochemical and Biophysical Research Communications, 312(3), 537, 2003 |
| 6 |
Hydrodynamic dispersion in perfusion chromatography - a network model analysis
Loh KC, Geng AL
Chemical Engineering Science, 58(15), 3439, 2003 |
| 7 |
Hexose oxidase from Chondrus crispus: improved purification using perfusion chromatography
Savary BJ, Hicks KB, O'Connor JV
Enzyme and Microbial Technology, 29(1), 42, 2001 |
| 8 |
Heterogeneity of surface energies in reversed-phase perfusive packings
Geng AL, Loh KC
Journal of Colloid and Interface Science, 239(2), 447, 2001 |
| 9 |
Human aromatase in high yield and purity by perfusion chromatography and its characterization by difference spectroscopy and mass spectrometry
Gartner CA, Thompson SJ, Rettie AE, Nelson SD
Protein Expression and Purification, 22(3), 443, 2001 |
| 10 |
Separation of proteins by electrophoretic affinity chromatography
Feng SH, Liu Z, Ding FX, Yuan NJ
Chinese Journal of Chemical Engineering, 7(4), 315, 1999 |
