Essert, G.M.; Tesanovic, M.; Berensmeier, S.; Hagemann, I.; Schwan, P.
A Self-Consistent, High-Fidelity Adsorption Model for Chromatographic Process Predictions: Low-to-High Load Density and Charge Variants in a Preparative Cation Exchanger. Separations 2025, 12, 147.
https://doi.org/10.3390/separations12060147
AMA Style
Essert GM, Tesanovic M, Berensmeier S, Hagemann I, Schwan P.
A Self-Consistent, High-Fidelity Adsorption Model for Chromatographic Process Predictions: Low-to-High Load Density and Charge Variants in a Preparative Cation Exchanger. Separations. 2025; 12(6):147.
https://doi.org/10.3390/separations12060147
Chicago/Turabian Style
Essert, Gregor M., Marko Tesanovic, Sonja Berensmeier, Isabell Hagemann, and Peter Schwan.
2025. "A Self-Consistent, High-Fidelity Adsorption Model for Chromatographic Process Predictions: Low-to-High Load Density and Charge Variants in a Preparative Cation Exchanger" Separations 12, no. 6: 147.
https://doi.org/10.3390/separations12060147
APA Style
Essert, G. M., Tesanovic, M., Berensmeier, S., Hagemann, I., & Schwan, P.
(2025). A Self-Consistent, High-Fidelity Adsorption Model for Chromatographic Process Predictions: Low-to-High Load Density and Charge Variants in a Preparative Cation Exchanger. Separations, 12(6), 147.
https://doi.org/10.3390/separations12060147
