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Abstract
Molecular stream separation (MSS) is a promising complement for continuous-flow synthesis. MSS is driven by forces exerted on molecules by a field applied at an angle to the stream-carrying flow. MSS has only been performed with a 90 field-to-flow angle because of a rectangular geometry of canonic MSS; the second-order rotational symmetry of a rectangle prevents any other angle. Here, we propose a non-canonic circular geometry for MSS, which allows changing the field-to-flow angle. We conducted in silico and experimental studies of circular geometry for continuous-flow electrophoresis (CFE, an MSS method). Counterintuitively, circular CFE was found to support better flow and electric-field uniformity than rectangular CFE. We proved that the nonorthogonal field-to-flow orientation can result in a higher stream resolution than the orthogonal one. We foresee that circular CFE will serve as a new testbed for the investigation and creation of new CFE modalities.
Supplementary materials
Title
Supporting information for manuscript
Description
Description of methods and technical details
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Title
Supporting video files
Description
Video S1. Fluorescent beads time-lapse for flow field Γ calculations in Note S6
Video S2. Flow vortexing flow due to Ion Concentration polarisation
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COMSOL Models
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(Dummy file due to upload limit)
1. Circular device geometry evolution models
2. Examples of Г for Non-ideal flow geometries
3. Varying the total number of electrodes in the circular device
4. Varying the number of active electrodes in the circular device
5. Varying the angle in non-orthogonal separation models
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Supplementary weblinks
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Sergey N. Krylov lab @ York University
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Lab homepage with more information and resources about this topic (and more)!
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