Modeling the separation of macromolecules: A review of current computer simulation methods
GW Slater and C Holm and MV Chubynsky and HW de Haan and A Dube and K Grass and OA Hickey and C Kingsburry and D Sean and TN Shendruk and LX Nhan, ELECTROPHORESIS, 30, 792-818 (2009).
DOI: 10.1002/elps.200800673
Theory and numerical simulations play a major role in the development of improved and novel separation methods. In some cases, computer simulations predict counterintuitive effects that must be taken into account in order to properly optimize a device. In other cases, simulations allow the scientist to focus on a subset of important system parameters. Occasionally, simulations even generate entirely new separation ideas! In this article, we review the main simulation methods that are currently being used to model separation techniques of interest to the readers of Electrophoresis. In the first part of the article, we provide a brief description of the numerical models themselves, starting with molecular methods and then moving towards more efficient coarse- grained approaches. in the second part, we briefly examine nine separation problems and some of the methods used to model them. We conclude with a short discussion of some notoriously hard-to-model separation problems and a description of some of the available simulation software packages.
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