Directional free-surface flows on a microfluidic chip with interplay of electrical and thermal fields
Golak Kunti, Jayabrata Dhar, Anandaroop Bhattachariya, Suman, Chakraborty
TL;DR
This paper introduces a novel on-chip method for controlling free-surface electrokinetic flows in highly conductive fluids by leveraging the interaction between alternating electric currents and thermal fields, enabling precise flow direction without physical confinement.
Contribution
The study presents a new approach that combines electrical and thermal fields to manipulate free-surface flows in high-conductivity fluids on a microfluidic chip, overcoming limitations of traditional electrokinetic methods.
Findings
Demonstrated flow control via electrical-thermal interplay
Achieved directed flow without geometric confinement
Applicable to high-conductivity biological fluids
Abstract
Free-surface electrokinetic flows have been attracting increasing attention from the research community over recent times, as attributable to their diverse fields of applications ranging from fluid mixing, particle manipulation to bio-chemical processing on a chip. Traditional electrokinetic processes governing free surface flows are mostly effective in manipulating fluids having characteristically low values of the electrical conductivity (lower than 0.085 S/m). Biological and biochemical processes, on the other hand, typically aim to manipulate fluids having higher electrical conductivities. To circumvent the problem of traditional electrokinetic processes in manipulating highly conductive fluids mediated by free surface flows, here we demonstrate a novel on-chip methodology for the same by exploiting the interaction between an alternating electric current and a thermal field. The…
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Taxonomy
TopicsMicrofluidic and Bio-sensing Technologies · Electrowetting and Microfluidic Technologies · Microfluidic and Capillary Electrophoresis Applications