| 11 - 11 |
Preparative Chromatography and Downstream Processing
Svec F, Bock B |
| 17 - 34 |
Simulated Moving Bed Chromatography: From Concept to Proof-of-Concept
Gomes PS, Rodrigues AE |
| 35 - 35 |
Countercurrent Chromatography, Scope and Perspectives: Application to Chirotechnology
Minguillon C |
| 46 - 57 |
Mathematical Modeling of Protein Chromatograms
Lienqueo ME, Mahn A, Salgado JC, Shene C |
| 58 - 71 |
Development of a Microrectification Apparatus for Analytical and Preparative Applications
Ziogas A, Cominos V, Kolb G, Kost HJ, Werner B, Hessel V |
| 72 - 82 |
Sequential Centrifugal Partition Chromatography: A New Continuous Chromatographic Technology
Hopmann E, Goll J, Minceva M |
| 83 - 90 |
Chromatographic Separation and Purification of Mitotane Racemate in a Varicol Multicolumn Continuous Process
da Silva AC, Salles AG, Perna RF, Correia CRD, Santana CC |
| 91 - 101 |
Insights into Protein Sorption and Desorption on Dextran-Modified Ion-Exchange Media
Bowes BD, Traylor SJ, Timmick SM, Czymmek KJ, Lenhoff AM |
| 102 - 108 |
A Method for Deriving Explicit Binary Isotherms Obeying the Ideal Adsorbed Solution Theory
Tarafder A, Mazzotti M |
| 109 - 132 |
Combination of Rigorous and Statistical Modeling for Process Development of Plant-Based Extractions Based on Mass Balances and Biological Aspects
Kassing M, Jenelten U, Schenk J, Hansch R, Strube J |
| 133 - 141 |
Response Surface Optimization of Essential Oil and Diosgenin Extraction from Tribulus terrestris via Supercritical Fluid Technology
Ghoreishi SM, Bataghva E, Dadkhah AA |
| 142 - 148 |
Process Development for Antibody Purification from Tobacco by Protein A Affinity Chromatography
Hey C, Zhang CM |
| 149 - 156 |
Highlighting Important Parameters Often Neglected in Numerical Optimization of Preparative Chromatography
Samuelsson J, Enmark M, Forssen P, Fornstedt T |
| 157 - 160 |
Optimization and Performance of Silica-Based Media for Industrial-Scale Antibody Purification
Miyahara H, Nakashima R, Inoue M, Katsuda T, Yamaji H, Katoh S |
| 161 - 168 |
Design of Fructooligosaccharide Separation Using Simulated Moving-Bed Chromatography
Vankova K, Polakovic M |
| 169 - 175 |
Supporting Design and Control of a Reversed-Phase Chromatography Step by Mechanistic Modeling
Westerberg K, Borg N, Andersson N, Nilsson B |
| 176 - 182 |
Supercritical Fractionation of Rosemary Extracts to Improve the Antioxidant Activity
Vicente G, Garcia-Risco MR, Fornari T, Reglero G |
| 183 - 190 |
Model-Based Process Challenge of an Industrial Ion-Exchange Chromatography Step
Westerberg K, Hansen EB, Degerman M, Hansen TB, Nilsson B |
| 191 - 197 |
Integration of Reverse-Osmosis Unit Operations in Biotechnology Process Design
Grote F, Frohlich H, Strube J |
| 198 - 203 |
Rational Method for Designing Efficient Chromatography Processes based on the Iso-Resolution Curve
Hosono M, Maeda R, Yoshimoto N, Yamamoto S |
