(215f) EFFECT of Material Morphology ON Electrophoresis of Bio-Molecules: A Computational-BASED Approach
AIChE Annual Meeting
2009
2009 Annual Meeting
2009 Annual Meeting of the American Electrophoresis Society (AES)
Nanoscale Electrokinetics
Tuesday, November 10, 2009 - 10:10am to 10:30am
Electrophoresis in polymer hydrogels with nanometer-scale pore structure is widely used for the separation and purification of biological macromolecules. In gel-electrophoresis, the internal morphology of the gel also plays an important role in improving the separation. Tuning the nanometer-scale pore structure of the gel either by templating or by adding nanoparticles to improve separations has been the current area of focus in our research group. Moreover, analysis of the effects of the nature of the pore alignment, pore length and diameters on the transport of macromolecules is an important aspect to be studied either analytically or computationally as shown by previous efforts (Trinh et al, 1999; Hidalgo et. al, 2007). In this research, we propose to computationally analyze different pore models (associated with gel materials) and study the effect of geometry on the transport properties in this anisotropic-like media. Results will illustrate, for example, the role of pore-scale in conjunction with electrical fields and identify potentially usual architectures for an optimal separation.
References:
1. Trinh, S., B.R. Locke and P.E. Arce, ?Convective and Electroconvective Transport in Non-Uniform Channels with Application to Macromolecular Separations,? Separation and Purification Technology, 15, 255 (1999).
2. Hidalgo, R., M. A. Oyanader (*), and P. E. Arce, ?Dispersive Mixing Effect Caused by Combined Effect of Channel Morphology and Electrophoretic Mobility in Poiseuille Flows.? AIChE Annual Meeting, Salt Lake City, 2007. (*) Speaker.