|
Nikita et al. (2021): Reinforcement learning based optimization of process chromatography for continuous processing of biopharmaceuticals
|
|
0
|
660
|
September 29, 2020
|
|
Deulgaonkar et al. (2021): Mechanistic modeling of continuous capture step purification of biosimilar monoclonal antibody therapeutic
|
|
0
|
563
|
September 23, 2021
|
|
Kimerer et al. (2021): Role of configurational flexibility on the adsorption kinetics of bivalent bispecific antibodies on porous cation exchange resins
|
|
0
|
472
|
October 4, 2021
|
|
Kumar et al. (2017): Mechanistic Modeling Based PAT Implementation for Ion‐Exchange Process Chromatography of Charge Variants of Monoclonal Antibody Products
|
|
0
|
506
|
October 3, 2020
|
|
He et al. (2020): Bayesian inference based process design and uncertainty analysis of simulated moving bed chromatographic systems
|
|
0
|
484
|
June 9, 2020
|
|
Kumar et al. (2015): Mechanistic modeling of ion-exchange process chromatography of charge variants of monoclonal antibody products
|
|
0
|
529
|
June 9, 2020
|
|
Püttmann et al. (2016): Utilizing algorithmic differentiation to efficiently compute chromatograms and parameter sensitivities
|
|
0
|
463
|
June 4, 2020
|
|
Hagemann et al. (2020): Modeling hindered diffusion of antibodies in agarose beads considering pore size reduction due to adsorption
|
|
0
|
587
|
June 18, 2020
|
|
Guo et al. (2020): Optimization of single-column batch and multicolumn continuous protein A chromatography and performance comparison based on mechanistic model
|
|
0
|
591
|
August 10, 2020
|
|
Bernau et al. (2021): Precision analysis for the determination of steric mass action parameters using eight tobacco host cell proteins
|
|
0
|
506
|
July 2, 2021
|
|
Diehm et al. (2023): Development of a 3D printed micro simulated moving bed chromatography system
|
|
0
|
220
|
March 21, 2023
|
|
Breuer et al. (2023): Spatial discontinuous Galerkin spectral element method for a family of chromatography models in CADET
|
|
1
|
279
|
July 8, 2023
|
|
Kumar et al. (2022): Modeling the impact of holdup volume from chromatographic workstations on ion-exchange chromatography
|
|
0
|
437
|
July 10, 2022
|
|
Gerstweiler et al. (2022): Control strategy for multi-column continuous periodic counter current chromatography subject to fluctuating inlet stream concentration
|
|
0
|
624
|
February 14, 2022
|
|
Guo et al. (2022): Effect of solution condition on the binding behaviors of monoclonal antibody and fusion protein therapeutics in Protein A chromatography
|
|
0
|
261
|
January 18, 2023
|
|
Shekhawat et al. (2022): An accelerated approach for mechanistic model based prediction of linear gradient elution ion-exchange chromatography of proteins
|
|
0
|
337
|
October 3, 2022
|
|
Jäpel and Buyel (2022): Bayesian optimization using multiple directional objective functions allows the rapid inverse fitting of parameters for chromatography simulations
|
|
3
|
463
|
August 23, 2022
|
|
Yang et al. (2022): Towards next generation high throughput ion exchange membranes for downstream bioprocessing: A review
|
|
0
|
489
|
February 9, 2022
|
|
Malmström (2022): Orbit-simulator for downstream processes
|
|
0
|
417
|
April 12, 2022
|
|
Herman et al. (2022): Behavior of weakly adsorbing protein impurities in flow-through ion-exchange chromatography
|
|
0
|
380
|
February 1, 2022
|
|
Kumar et al. (2021): Robust mechanistic modeling of protein ion-exchange chromatography using a colloidal isotherm
|
|
2
|
870
|
January 27, 2022
|
|
Heymann et al. (2022): Advanced score system and automated search strategies for parameter estimation in mechanistic chromatography modeling
|
|
0
|
465
|
November 25, 2021
|
|
Uche et al. (2021): Investigating the effects of core-shell particles on non-isothermal reactive liquid chromatography
|
|
0
|
409
|
September 7, 2021
|
|
Shekhawat et al. (2020): An overview of mechanistic modeling of liquid chromatography
|
|
0
|
500
|
December 23, 2020
|
|
Kumar et al. (2020): Mechanistic modeling of preparative column chromatography for biotherapeutics
|
|
0
|
607
|
June 18, 2020
|