AI Article Synopsis
- A novel microchip separation system utilizing electromagnetophoresis (EMP) was developed to isolate microparticles in a microchannel with local electric current control, enhancing separation efficiency.
- The system features a hollow fiber-embedded microchip with multiple electrodes that can apply current without needing a pressure control device, allowing for effective separation of small molecules.
- The device successfully separated polystyrene latex particles by size, achieving up to 87% separation efficiency for 3 μm particles and demonstrated potential for biological particle separation as well.
Article Abstract
A novel microchip separation system for microparticles based on electromagnetophoresis (EMP) was developed. In this system, focusing and separation of flowing microparticles in a microchannel could be performed by staggered-EMP by controlling the electric current applied to the channel locally combined with the split-flow system for fractionation of eluates. To apply the electric current through the flushing medium in the microchannel, a hollow fiber-embedded microchip with multiple electrodes was fabricated. The hollow fiber was made by a semi-permeable membrane and could separate small molecules. This microchip allowed us to apply the electric current to a part of the microchannel without any pressure control device because a main channel contacted with the subchannels that had electrodes through the semi-permeable membrane. Moreover, the separation using this microchip was combined with the split-flow system at two outlets to improve separation efficiency. Using this system, with the split-flow ratio of 10:1, 87% of 3 μm polystyrene (PS) latex particles were isolated from a mixture of 3 and 10 μm particles. Even the separation of 6 and 10 μm PS particles was achieved with about 77% recovery and 100% purity. In addition, by controlling the applied current, size fractionation of polypropylene (PP) particles was demonstrated. Moreover, biological particles such as pollens could be separated with high separation efficiency by this technique.
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| http://dx.doi.org/10.2116/analsci.32.41 | DOI Listing |
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