T. Roux-Marchand scite author profile

T. Roux-Marchand

3Publications

28Citation Statements Received

30Citation Statements Given

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Affiliations

Centre d'Etudes Superieures Industrielles, Université de Lorraine, Institut Jean Lamour

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Rayleigh surface acoustic wave as an efficient heating system for biological reactions: investigation of microdroplet temperature uniformity

Roux-Marchand

Beyssen

Sarry

et al. 2015

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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When a microdroplet is put on the Rayleigh surface acoustic wave path, longitudinal waves are radiated into the liquid and induce several phenomena such as the wellknown surface acoustic wave streaming. At the same time, the temperature of the microdroplet increases as it has been shown. In this paper, we study the temperature uniformity of a microdroplet heated by Rayleigh surface acoustic wave for discrete microfluidic applications such as biological reactions. To precisely ascertain the temperature uniformity and not interfere with the biological reaction, we used an infrared camera. We then tested the temperature uniformity as a function of three parameters: the microdroplet volume, the Rayleigh surface acoustic wave frequency, and the continuous applied radio frequency power. Based on these results, we propose a new device structure to develop a future lab on a chip based on reaction temperatures.

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Polarization mechanisms of dielectric materials at a binary liquid interface: impacts on electrowetting actuation

Bonfante

Roux-Marchand

Audry-Deschamps

et al. 2017

Phys. Chem. Chem. Phys.

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We explored polarization mechanisms at the interface between a dielectric material (an electrolyte) and an insulating liquid, during electrowetting actuation. Native surface charge density due to hydrophobic coating has been measured as an offset voltage for which the contact angle is at its minimum. Surface charge densities as low as 0.023 mC m have been measured using this method, demonstrating that electrowetting can be used as a probe to measure native surface charge density. This effect strongly differs depending on the kind of polarization and is at the origin of major discrepancies between alternative and direct polarization during electrowetting actuation. A new model describing electrowetting actuation is also proposed, leading to a more predictive description as well as useful recommendations on materials to obtain a stable actuation under DC polarization.

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Correlation of Heat Transfers Mechanism(s) and Time Constant Equilibrium on Digital Rayleigh-SAW Microfluidic System

Beyssen

Sarry

Roux-Marchand

2015

Procedia Engineering

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T. Roux-Marchand

Rayleigh surface acoustic wave as an efficient heating system for biological reactions: investigation of microdroplet temperature uniformity

Polarization mechanisms of dielectric materials at a binary liquid interface: impacts on electrowetting actuation

Correlation of Heat Transfers Mechanism(s) and Time Constant Equilibrium on Digital Rayleigh-SAW Microfluidic System

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