Rischawy et al. (2023): Connected mechanistic process modeling to predict a commercial biopharmaceutical downstream process
|
|
0
|
262
|
May 25, 2023
|
Heymann et al. (2023): Advanced error modeling and Bayesian uncertainty quantification in mechanistic liquid chromatography modeling
|
|
0
|
177
|
September 13, 2023
|
Yang et al. (2024): Parameter-by-parameter estimation method for adsorption isotherm in hydrophobic interaction chromatography
|
|
0
|
90
|
January 27, 2024
|
Ughade et al. (2024): Mechanistic modeling of size exclusion chromatography-assisted in vitro refolding of the recombinant biosimilar teriparatide (PTH-34)
|
|
0
|
51
|
February 5, 2024
|
Frandsen et al. (2024):Shortcut design method for multicomponent gradient simulated moving beds
|
|
0
|
105
|
November 21, 2023
|
Diehm et al. (2024): Micro simulated moving bed chromatography-mass spectrometry as a continuous on-line process analytical tool
|
|
0
|
138
|
November 21, 2023
|
Tang et al. (2023): Physics-informed neural networks to solve lumped kinetic model for chromatography process
|
|
0
|
207
|
September 12, 2023
|
Ding et al. (2024): Machine learning-based optimization of a multi-step ion exchange chromatography for ternary protein separation
|
|
0
|
58
|
February 26, 2024
|
Rao et al. (2023): High definition simulation of packed bed chromatography
|
|
0
|
163
|
July 27, 2023
|
LeBarre et al. (2024): Mixed-mode size-exclusion silica resin for polishing human antibodies in flow-through mode
|
|
0
|
25
|
February 29, 2024
|
He et al. (2018): Efficient numerical simulation of simulated moving bed chromatography with a single-column solver
|
|
0
|
459
|
June 4, 2020
|
He et al. (2020): Model-based process design of a ternary protein separation using multi-step gradient ion-exchange SMB chromatography
|
|
0
|
457
|
June 4, 2020
|
Altern et al. (2024): Mechanistic model-based characterization of size-exclusion-mixed-mode resins for removal of monoclonal antibody fragments
|
|
1
|
73
|
February 19, 2024
|
Bhoyar et al. (2024): Predictive mechanistic modeling of loading and elution in protein A chromatography
|
|
2
|
164
|
January 19, 2024
|
Example for parameter estimation using multiple experiments
|
|
0
|
108
|
December 7, 2023
|
Example for parameter estimation using the Yamamoto method
|
|
0
|
108
|
December 7, 2023
|
Kumar et al. (2015): Mechanistic modeling of ion-exchange process chromatography of charge variants of monoclonal antibody products
|
|
0
|
478
|
June 9, 2020
|
Hagemann et al. (2020): Modeling hindered diffusion of antibodies in agarose beads considering pore size reduction due to adsorption
|
|
0
|
532
|
June 18, 2020
|
Questions about Using CADET and GoSilico in Biopharmaceutical Purification Proces
|
|
3
|
274
|
July 10, 2023
|
Parameter estimation with mass action law
|
|
6
|
162
|
July 4, 2023
|
Kumar et al. (2022): Modeling the impact of holdup volume from chromatographic workstations on ion-exchange chromatography
|
|
0
|
341
|
July 10, 2022
|
CADET isotherm model
|
|
19
|
606
|
May 12, 2023
|
Application of CADET into optimization of normal phase HPLC gradients
|
|
2
|
179
|
May 9, 2023
|
Jäpel and Buyel (2022): Bayesian optimization using multiple directional objective functions allows the rapid inverse fitting of parameters for chromatography simulations
|
|
3
|
343
|
August 23, 2022
|
Model development
|
|
5
|
709
|
July 25, 2022
|
IsoFit Software
|
|
2
|
564
|
March 30, 2022
|
An Introduction to CADET-Process
|
|
2
|
951
|
March 16, 2022
|
The definition of film diffusion and surface diffusion
|
|
2
|
1298
|
February 2, 2022
|
CADET Matlab Installation
|
|
4
|
713
|
June 14, 2021
|
Coding Issue with estimating parameters for a BiLangmuir adsorption model
|
|
2
|
510
|
July 10, 2020
|