Guo-Dong Jia scite author profile

In this study, a novel column design with a round cross-section was proposed to be suitable for a transverse electric field (EF). Additionally, two beads for entropic interaction chromatography (EIC) were prepared by grafting glycidyl methacrylate onto Toyopearl HW-65F (T65F) beads. Solute partitioning was then investigated to elucidate the role of graft polymerization with and without an EF. In a T65F column, solute partitioning was attributed to the distinct pore structure in the beads and was governed by pore flow. Under EF, partition coefficients (Kp) for solutes decreased with increasing EF strength. In the two EIC columns, a decrease of Kp was also observed without an EF while the fractionation windows were extended. It was more pronounced in the EIC column with a high grafting density (T65F-H). This was explained by the decrease in the effective pore size of solutes caused by the steric hindrance of polymer chains. Under an EF, the solutes showed different partitioning behaviours in the T65F-H column. With increasing EF strength, Kp for vitamin B12 and myoglobin was decreased. In contrast, Kp for large solutes increased as a result of concentration polarization on the bead surface. Both behaviors were related to the modulation of graft polymerization to residual charge on the matrix and the pore size of the solutes.

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Process intensification of immobilized metal affinity chromatography with longitudinal and oscillatory transverse electric fields

Shi¹,

Jia²,

Sun³

2011

Separation and Purification Technology

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Protein adsorption in two-dimensional electrochromatography packed with superporous and microporous cellulose beads

Wang

Jia

et al. 2009

Front. Chem. Eng. China

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Anion-exchange superporous cellulose (DEAE-SC) and microporous cellulose (DEAE-MC) adsorbents were packed in an electrochromatographic column, and the effect of external electric field (eEF) on the dynamic adsorption was investigated. The column was designed to provide longitudinal, transverse or 2-dimensional (2D) eEF. It was found that the electro-kinetic effect caused by the introduction of an electric field played an important role in the dynamic adsorption of bovine serum albumin to the adsorbents. The dynamic binding capacity (DBC) in the presence of 2D eEF was higher than in the presence of a one-dimensional eEF. The effect of flow velocity on the DBC of the two adsorbents was also demonstrated. It was found that the effect of electric field on the DEAE-MC column was more remarkable than that on the DEAE-SC column at the same flow rate, whereas the DEAE-SC column showed higher DBC and adsorption efficiency (AE) than the DEAE-MC column. With increasing flow rate, the DEAE-SC column could still offer high DBC and AE in the presence of the 2D eEF. For example, a DBC of 21.4 mg/mL and an AE of 57.7% were obtained even at a flow rate as high as 900 cm/h. The results indicate that the 2D electrochromatography packed with the superporous cellulose adsorbent is promising for high-speed protein chromatography.

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Guo-Dong Jia

Dextran-grafted cation exchanger based on superporous agarose gel: Adsorption isotherms, uptake kinetics and dynamic protein adsorption performance

Dye–ligand affinity electrochromatography with transverse and/or longitudinal electric field

Effect of electric field on the partitioning behavior of solutes in entropic interaction chromatography

Process intensification of immobilized metal affinity chromatography with longitudinal and oscillatory transverse electric fields

Protein adsorption in two-dimensional electrochromatography packed with superporous and microporous cellulose beads

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