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MICROELECTRONIC ARRAYS FOR CELL-BASED FUNCTIONAL GENOMICS / HIGH THROUGHPUT PHENOTYPING BY ELECTROKINETIC ASSEMBLY
MICROELECTRONIC ARRAYS FOR CELL-BASED FUNCTIONAL GENOMICS / HIGH THROUGHPUT PHENOTYPING BY ELECTROKINETIC ASSEMBLY
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机译:基于细胞的功能基因组学微电子阵/电动组装的高通量表型
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摘要
An electrochemical apparatus (1) permits electric-field-assisted fluidic assembly of objects (2) on a patterned silicon substrate (11) by means of electrical addressing. Charged objects (2) such as beads and live cells are moved electrokinetically, like as in electrophoresis, through a solution, typically water (3), towards a micro-patterned charged semiconductor electrode, such as a silicon electrode (11) patterned with silicon dioxide, silicon nitride or agarose gel. The charged objects (2) are thus localized and assembled, most typically into arrays of multiple or single particles, in accordance with the patterning of the electrode (11). Correlating with theoretical predictions, negatively charged polystyrene beads of 20 νm diameter, or live mammalian cells of 20-30 νm diameter, can be assembled and disassembled on 100 νm feature size micro-patterned substrates by means of electrical addressing. The apparatus (1) has application in creation of active cellular arrays for cell biology research, drug discovery and tissue engineering.
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