Stéphane Colin
YOU?
Author Swipe
View article: Micro separator of aerosol particles based on the thermophoretic effect
Micro separator of aerosol particles based on the thermophoretic effect Open
International audience
View article: Cost and time-efficient microdevice fabrication process for rarefied gas flow applications
Cost and time-efficient microdevice fabrication process for rarefied gas flow applications Open
This study presents a rapid and cost-effective method for fabricating microchannels for rarefied gas flow applications using maskless photolithography. The geometrical characteristics of the microchannels were characterized via optical mic…
View article: Measurements of diffusion coefficient and kinetic diameter of acetone vapor via molecular tagging
Measurements of diffusion coefficient and kinetic diameter of acetone vapor via molecular tagging Open
The Molecular Tagging (MT) technique is a promising methodology for locally measuring velocity and temperature fields in rarefied gas flows. Recently, Molecular Tagging Velocimetry (MTV) has been successfully applied to gas flows in mini-c…
View article: Measurements of diffusion coefficient and kinetic diameter of diacetyl and acetone vapor via molecular tagging
Measurements of diffusion coefficient and kinetic diameter of diacetyl and acetone vapor via molecular tagging Open
International audience
View article: Isothermal pressure driven gas microflows in tapered microchannels with circular cross section: numerical and experimental investigations
Isothermal pressure driven gas microflows in tapered microchannels with circular cross section: numerical and experimental investigations Open
International audience
View article: Temperature dependence of gas-phase acetone photoluminescence under low pressure conditions at several excitation wavelengths
Temperature dependence of gas-phase acetone photoluminescence under low pressure conditions at several excitation wavelengths Open
International audience
View article: Review of Optical Thermometry Techniques for Flows at the Microscale towards Their Applicability to Gas Microflows
Review of Optical Thermometry Techniques for Flows at the Microscale towards Their Applicability to Gas Microflows Open
Thermometry techniques have been widely developed during the last decades to analyze thermal properties of various fluid flows. Following the increasing interest for microfluidic applications, most of these techniques have been adapted to …
View article: Jet impingement cooling using fluidic oscillators: an experimental study
Jet impingement cooling using fluidic oscillators: an experimental study Open
A growing portion of the thermal load on board airplanes is due to densely packed electronic systems. This increased thermal load along with constraints on weight and volume have made simple and reliable cooling solutions an urgent need in…
View article: Professor Satish G. Kandlikar on His 70th Birthday
Professor Satish G. Kandlikar on His 70th Birthday Open
International audience
View article: Optofluidic Formaldehyde Sensing: Towards On-Chip Integration
Optofluidic Formaldehyde Sensing: Towards On-Chip Integration Open
Formaldehyde (HCHO), a chemical compound used in the fabrication process of a broad range of household products, is present indoors as an airborne pollutant due to its high volatility caused by its low boiling point ( T = − 19 °C). Miniatu…
View article: Velocity Measurements in Channel Gas Flows in the Slip Regime by means of Molecular Tagging Velocimetry
Velocity Measurements in Channel Gas Flows in the Slip Regime by means of Molecular Tagging Velocimetry Open
Direct measurements of the slip velocity in rarefied gas flows produced by local thermodynamic non-equilibrium at the wall represent crucial information for the validation of existing theoretical and numerical models. In this work, molecul…
View article: Prototyping a Microfluidic Sensor for Real-Time Detection of Airborne Formaldehyde
Prototyping a Microfluidic Sensor for Real-Time Detection of Airborne Formaldehyde Open
International audience
View article: Gas Flows in Microsystems
Gas Flows in Microsystems Open
The last two decades have witnessed a rapid development of microelectromechanical systems (MEMS) involving gas microflows in various technical fields. Gas microflows can, for example, be observed in microheat exchangers designed for chemic…
View article: IMPROVING THE MANUFACTURING PROCESS OF MULTI-LEVEL MICROFLUIDIC DEVICES BASED ON THE LAMINATION OF SUCCESSIVE DRY FILM PHOTORESIST LAYERS
IMPROVING THE MANUFACTURING PROCESS OF MULTI-LEVEL MICROFLUIDIC DEVICES BASED ON THE LAMINATION OF SUCCESSIVE DRY FILM PHOTORESIST LAYERS Open
International audience
View article: Study and development of fluidic oscillators for heat removal
Study and development of fluidic oscillators for heat removal Open
International audience
View article: Microfluidic sensing of airborne formaldehyde: towards on-chip integration (oral presentation & poster & proceedings with peer review)
Microfluidic sensing of airborne formaldehyde: towards on-chip integration (oral presentation & poster & proceedings with peer review) Open
International audience
View article: Investigations on acetone vapour photoluminescence for applications in molecular tagging techniques
Investigations on acetone vapour photoluminescence for applications in molecular tagging techniques Open
International audience
View article: Editorial for the Special Issue on Gas Flows in Microsystems
Editorial for the Special Issue on Gas Flows in Microsystems Open
The last two decades have witnessed a rapid development of microelectromechanical systems (MEMS) involving gas microflows in various technical fields [...]
View article: Inertial migration of bidisperse suspensions flowing in microchannels: effect of particle diameters ratio
Inertial migration of bidisperse suspensions flowing in microchannels: effect of particle diameters ratio Open
Up to date, inertial migration of particles in microflows has demonstrated a great potential for a wide range of applications. In particular, this phenomenon is used to achieve particle separation or sorting in a suspension. Recent works r…
View article: Inertial migration of bidisperse suspensions flowing in microchannels:\n effect of particle diameters ratio
Inertial migration of bidisperse suspensions flowing in microchannels:\n effect of particle diameters ratio Open
Up to date, inertial migration of particles in microflows has demonstrated a\ngreat potential for a wide range of applications. In particular, this\nphenomenon is used to achieve particle separation or sorting in a suspension.\nRecent work…
View article: Proposed Design for Simultaneous Measurement of Wall and Near-wall Temperatures in Gas Microflows
Proposed Design for Simultaneous Measurement of Wall and Near-wall Temperatures in Gas Microflows Open
Gas behavior in systems at microscale has been receiving significant attention from researchers in the last two decades [1-4]. Today, there is an enhanced emphasis on developing new experimental techniques to capture the local temperature …