Advances in Electrokinetics and Electrophoresis - Fundamentals

Monday, November 9, 2009: 8:30 AM
Canal A (Gaylord Opryland Hotel)

Description:
Electrokinetics involves the use of electrical fields and electrical forces (between surfaces and particles) to produce a motion of colloidal particles within a medium. This environment could be either a fluid, porous or fibrous medium. Notable applications include those related to environmental process such as the decontamination of water or a soil, the cleaning of water for drinking purposes and the decontamination of industrial effluents; electrostatics aspects in membrane-based separation processes is another excellent example as well as micro-filtration in electrically enhanced processes. Within this framework, a detailed analysis of particle-to-particle electrostatics forces, the experimental measurements of their magnitude and computer-based simulation approaches are relevant for the advance of processes and technology involving electrokinetics principles. Therefore, contributions with novel approaches related to fundamental principles, modeling, and experimental studies will be welcomed. We would like to have a balance between a given problem, the motivation, and the outcome related to the solution. However, purely experimental contributions describing new and novel aspects of electrokinetics will be welcomed as well as theories and computational efforts helping to improve understanding of outstanding fundamental problems.


Sponsor:
Topical 3: 2009 Annual Meeting of the American Electrophoresis Society (AES)


Chair:
Rajiv Bharadwaj
Email: rbharadwaj@lbl.gov


8:30 AM

8:50 AM
(9b) Effect of Material Morphology On Electrokinetic-Based Bioseparations: Comparison Between Computational and Analytical Results
Jyothirmai J. Simhadri, Jennifer Pascal, Mario Oyanader, Holly A. Stretz and Pedro Arce

10:10 AM
(9f) Effect of Ionic Liquid On Microfluidic Electrophoretic Separation of Phenolic Acids
Suk Tai Chang, Rajiv Bharadwaj, Seema Singh and Anup K. Singh

10:30 AM
(9g) Electrofocusing Small Organic Ions
Cornelius F. Ivory, Jeffrey Burke and Colin Smith