Dielectrophoretic mobility determination in DC insulator‐based dielectrophoresis
Electrophoresis, 2011•Wiley Online Library
Insulator‐based dielectrophoresis (iDEP) is a powerful tool for separating and characterizing
particles, yet it is limited by a lack of quantitative characterizations. Here, this limitation is
addressed by employing a method capable of quantifying the DEP mobility of particles.
Using streak‐based velocimetry the particle properties are deduced from their motion in a
microfluidic channel with a constant electric field gradient. From this approach, the DEP
mobility of 1 μm polystyrene particles was found to be− 2±0.4 10− 8 cm4/(V2 s). In the future …
particles, yet it is limited by a lack of quantitative characterizations. Here, this limitation is
addressed by employing a method capable of quantifying the DEP mobility of particles.
Using streak‐based velocimetry the particle properties are deduced from their motion in a
microfluidic channel with a constant electric field gradient. From this approach, the DEP
mobility of 1 μm polystyrene particles was found to be− 2±0.4 10− 8 cm4/(V2 s). In the future …
Abstract
Insulator‐based dielectrophoresis (iDEP) is a powerful tool for separating and characterizing particles, yet it is limited by a lack of quantitative characterizations. Here, this limitation is addressed by employing a method capable of quantifying the DEP mobility of particles. Using streak‐based velocimetry the particle properties are deduced from their motion in a microfluidic channel with a constant electric field gradient. From this approach, the DEP mobility of 1 μm polystyrene particles was found to be −2±0.4 10−8 cm4/(V2 s). In the future, such quantitative treatment will allow for the elucidation of unique insights and rational design of devices.
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