Cyclic band compression in toroidal capillary electrophoresis delivers an unlimited number of theoretical plates with a quadratic growth in time and a constant peak capacity

Kist, Tarso B. Ledur

doi:10.1002/jssc.201800099

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…Using fusion splicing produces all-fused silica connections, that are smooth, without dead volumes, robust, with high tensile strengths, and that withstand a very large number of cleaning cycles with alkali, acid, and organic solutions. Toroidal CE [11] relies on the fusion splicing of the two ends of a single piece of a capillary to produce a torus [12], this has the potential to deliver very high separation efficiencies [13]. The techniques presented here increase also the potential of open source electrophoresis [14], adding flexibility in the prototyping of new separation layouts and detection schemes.…”

Section: Introductionmentioning

confidence: 99%

Polyimide removal, cleaving, and fusion splicing of cylindrical and square fused silica capillaries for new separation and detection layouts in capillary electrophoresis and chromatography

Paiva

Mallmann

Santos

et al. 2021

J of Separation Science

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Fusion splicing is an already mature technology used to join the ends of optical fibers in the telecommunication industry. However, there is a lack of reliable and well-described protocols to join the ends of fused silica microtubes or capillaries using fusion splicing. In this work, a step-by-step procedure is proposed and demonstrated to find the optimal operation conditions to splice the ends of fused silica capillaries by fusion. The two most appropriate and known technologies were tested and optimized: the microfurnace technique (or hot filament technique) and the electric arc technique. It is shown that both produce good splices when the capillaries are well cleaved. For this reason, the removal of the external coating, which is important for good cleavage, was also revised. The cleaving techniques were also compared among themselves. As a result, fusion splices of cylindric-to-cylindric, cylindric-to-square, and square-to-square capillaries are demonstrated. They have potential applications in new detection schemes and separation layouts in capillary electrophoresis, electrophoresis-based hydrodynamic concentrators, chromatography, cell sorters, and microfluidics in general.

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Section: Introductionmentioning

confidence: 99%