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SMBC References
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| Abel, S., Juza, M. | Less common applications of enantioselective HPLC using the SMB technology in the pharmaceutical industry | Chiral Separation Techniques: A Practical Approach Wiley-VCH Verlag |
2007, pp. 203-273. |
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| Abel, S., Mazzotti, M., Morbidelli, M. | Solvent gradient operation of simulated moving beds: Linear isotherms | J. Chromatogr. A. |
944 (2002) 23-39. |
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| Andersson, J., Mattiasson, B. | Simulated moving bed technology with a simplified approach for protein purification: Separation of lactoperoxidase and lactoferrin from whey protein concentrate | J. Chromatogr. A |
1107 (2006) 88-95. |
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| Blehaut, J., Nicoud, R.-M. | Recent aspects in simulated moving bed | Novasep Analusis Magazine |
26 (1998) M60-M70. |
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| Broughton, D.B. | Molex: Case history of a process | Chem. Eng. Prog. 64 |
(1968) 60-65. |
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| Broughton, D.B., Gerhold, C.G. | Continuous sorption process employing fixed bed of sorbent and moving inlets and outlets | US Patent 2 985 589 |
1961 |
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| Ching, C.B., Ruthven, D.M., Hidajat, K. | Experimental study of a simulated counter-current adsorption system. III: Sorbex operation | Chem. Eng. Sci. |
40 (1985) 1411-1417. |
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| Gottschlich, N., Kasche, V. | Purification of monoclonal antibodies by simulated moving-bed chromatography | J. Chromatogr. A |
765 (1997) 201-206. |
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| Gottschlich, N., Weidgen, S., Kasche, V. | Continuous biospecific affinity purification of enzymes by simulated moving bed chromatography: Theoretical description and experimental results | J.Chromatogr. A |
719 (1996) 267-274. |
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| Houwing, J., Billiet, H.A.H., van der Wielen, L.A.M. | Mass transfer effects during separation of proteins in SMB by size exclusion. | AICHE J. |
49 (2003) 1158-1167. |
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| Houwing, J., Jensen, T.B., van Hateren, S.H., Billiet, H.A.H., van der Wielen, L.A.M. | Positioning of salt gradients in ion-exchange SMB | AIChE J. |
49 (2004) 665-674. |
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| Houwing, J., Jensen, T.B., van Hateren, S.H., Billiet, H.A.H., van der Wielen, L.A.M. | Effect of salt gradients on the separation of dilute mixtures of proteins by ion exchange in SMB | J. Chromatogr. A |
952 (2002) 85-98. |
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| Huang, S.Y., Ulbrecht, J.J., Lin, C.K., Chang, W.H., Lee, W.S. | Enzyme purification and concentration by simulated moving bed chromatography: An experimental study | Chem. Eng. Com. |
45 (1986) 291-309. |
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| Imamoglu, S. | Simulated moving bed chromatography (SMB) for application in bioseparation | Advances in Biochemical Engineering/Biotechnology Springer-Verlag |
76 (2002) 211-231. |
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| Juza, M. | Development of a high-performance liquid chromatographic simulated moving bed separation from an industrial perspective | J. Chromatogr. A |
865 (1999) 35-49. |
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| Kessler, L.C., Gueorguieva, L., Rinas, U., Seidel-Morgenstern, A. | Step gradients in 3-zone simulated moving bed chromatography applications to the purification of antibodies and bone morphogenetic protein-2 | J. Chromatogr. A |
1176 (2007) 69-78. |
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| Li, P., Xiu, G., Rodrigues, A.E. | Proteins separation and purification by salt gradient ion-exchange SMB | AIChE J. |
53 (2007) 2419-2431. |
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| Ma, Z., Wang, N.H.L. | Standing wave analysis of SMB chromatography: linear systems | AIChE J. |
43 (1997) 2488-2508. |
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| Migliorini, C., Mazzotti, M., Zenoni, G., Morbidelli, M. | Shortcut experimental method for designing chiral SMB separations | AIChE J. |
48 (2002) 69-77. |
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| Park, B.J., Lee, C.H., Koo, Y.M. | Development of novel protein refolding using simulated moving bed chromatography | Korean J. Chem. Eng. |
22 (2005) 425-432. |
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| Pedeferri, M.P., Zenoni, G., Mazzotti, M., Morbidelli, M. | Experimental analysis of a chiral separation through simulated moving bed chromatography | Chem. Eng. Sci. |
54 (1999) 3735-3748. |
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| Perrin, S.R. and Nicoud, R.M | The Use of SMB for the Manufacture of Enantiopure Drug Substances | Principle to cGMP Compliance. in Chiral Separation Techniques: A Practical Approach, Second Edition (ed. by G. Subramanian) Wiley-VCH Verlag |
2001, pp. 253-285 |
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| Sahoo, D., Andersson, J. and Mattiasson, B. | Immobilized metal affinity chromatography in open-loop simulated moving bed technology: Purification of heat stable, histidine tagged ß-glucosidase | Journal of Chromatography B. |
877:16-17, (2009) 1651-1656. |
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| Storti, G., Masi, M., Carra, S., Morbidelli, M. | Optimal design of multicomponent countercurrent adsorption separation processes involving nonlinear equilibria | Chem. Eng. Sci. |
44 (1989) 1329-1345. |
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| Stroehlein, G., Aumann, L., Mueller-Spaeth, T., Tarafder, A., Morbidelli, M. | Continuous processing: The multicolumn countercurrent solvent gradient purification process | BioPharm International | Feb. (2007) 1-6. |
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| Xie, Y., Mun, S., Kim, J., Wang, N.H.L. | Standing Wave Design and Experimental Validation of a Tandem Simulated Moving Bed Process for Insulin Purification | Biotechnol. Prog. |
18 (2002) 1332-1344. |
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| Zhong, G., Guiochon, G. | Analytical solution for the linear ideal model of simulated moving bed chromatography | Chem. Eng. Sci. |
51 (1996) 4307. |
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