Design of a compact microfludic device for controllable cell distribution
Li, Jing-Liang, Day, Daniel and Gu, Min 2010, Design of a compact microfludic device for controllable cell distribution, Lab on a chip, vol. 10, no. 22, pp. 3054-3057, doi: 10.1039/C0LC00090F.
A compact microfluidic device with 96 microchambers allocated within four circular units was designed and examined for cell distribution. In each unit, cells were distributed to the surrounding chambers radially from the center. The circular arrangement of the chambers makes the design simple and compact. A controllable and quantitative cell distribution is achievable in this device. This design is significant to the microfluidic applications where controllable distribution of cells in multipule microchambers is demanded.
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