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W2548897400 abstract "We propose a simple, inexpensive microfluidic chip for large-scale trapping of single particles and cells based on induced-charge electroosmosis in a rotating electric field (ROT-ICEO). A central floating electrode array, was placed in the center of the gap between four driving electrodes with a quadrature configuration and used to immobilize single particles or cells. Cells were trapped on the electrode array by the interaction between ROT-ICEO flow and buoyancy flow. We experimentally optimized the efficiency of trapping single particles by investigating important parameters like particle or cell density and electric potential. Experimental and numerical results showed good agreement. The operation of the chip was verified by trapping single polystyrene (PS) microspheres with diameters of 5 and 20 μm and single yeast cells. The highest single particle occupancy of 73% was obtained using a floating electrode array with a diameter of 20 μm with an amplitude voltage of 5 V and frequency of 10 kHz for PS microbeads with a 5-μm diameter and density of 800 particles/μL. The ROT-ICEO flow could hold cells against fluid flows with a rate of less than 0.45 μL/min. This novel, simple, robust method to trap single cells has enormous potential in genetic and metabolic engineering." @default.
W2548897400 created "2016-11-11" @default.
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W2548897400 date "2016-11-15" @default.
W2548897400 modified "2023-10-17" @default.
W2548897400 title "Large-Scale Single Particle and Cell Trapping based on Rotating Electric Field Induced-Charge Electroosmosis" @default.
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W2548897400 doi "https://doi.org/10.1021/acs.analchem.6b03413" @default.
W2548897400 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27806196" @default.
W2548897400 hasPublicationYear "2016" @default.
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