Sheng-Ching Wang scite author profile

Sheng-Ching Wang

5Publications

15Citation Statements Received

141Citation Statements Given

How they've been cited

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160

134

Affiliations

MSD (United States), United States Military Academy

Publications

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Protein adsorption on core‐shell resins for flow‐through purifications: Effect of protein molecular size, shape, and salt concentration

Wang²,

Winters³

et al. 2022

Biotechnology Progress

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This work addresses the functional properties of the core‐shell resins Capto Core 400 and 700 for a broad range of proteins spanning 66.5 to 660 kDa in molecular mass, including bovine serum albumin (BSA) in monomer and dimer form, fibronectin, thyroglobulin, and BSA conjugates with 10 and 30 kDa poly(ethylene glycol) chains. Negatively charged latex nanoparticles (NPs) with nominal diameters of 20, 40, and 100 nm are also studied as surrogates for bioparticles. Protein binding and its trends with respect to salt concentration depend on the protein size and are different for the two agarose‐based multimodal resins. For the smaller proteins, the amount of protein bound over practical time scales is limited by the resin surface area and is larger for Capto Core 400 compared with Capto Core 700. For the larger proteins, diffusion is severely restricted in Capto Core 400, resulting in lower binding capacities than those observed for Capto Core 700 despite the larger surface area. Adding 500 mM NaCl reduces the local bound protein concentration and diffusional hindrance resulting in higher binding capacities for the large proteins in Capto Core 400 compared with low ionic strength conditions. The NPs are essentially completely excluded from the Capto Core 400 pores. However, 20 and 40 nm NPs bind significantly to Capto Core 700, further hindering protein diffusion. A model is provided to predict the dynamic binding capacities as a function of residence time.

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In situreal time monitoring of emulsification and homogenization processes for vaccine adjuvants

Ralbovsky

Soukup

Lomont

et al. 2022

Analyst

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Utilizing in situ spectroscopic tools to monitor ketal deprotection processes

Ralbovsky

Lomont

Ruccolo

et al. 2022

International Journal of Pharmaceutics

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Process monitoring of polysaccharide deketalization for vaccine bioconjugation development using in situ analytical methodology

Lomont

Ralbovsky

Guza

et al. 2022

Journal of Pharmaceutical and Biomedical Analysis

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Two-component irreversible adsorption with pore diffusion control – Experimental verification of a theory for protein adsorption on core–shell resins

Alavijeh

Wang

et al. 2023

Chemical Engineering Science

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Sheng-Ching Wang

Protein adsorption on core‐shell resins for flow‐through purifications: Effect of protein molecular size, shape, and salt concentration

In situreal time monitoring of emulsification and homogenization processes for vaccine adjuvants

Utilizing in situ spectroscopic tools to monitor ketal deprotection processes

Process monitoring of polysaccharide deketalization for vaccine bioconjugation development using in situ analytical methodology

Two-component irreversible adsorption with pore diffusion control – Experimental verification of a theory for protein adsorption on core–shell resins

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