Details
Title
Renaud, Philippe
Sciper ID
107144
Affiliated labs
LMIS4
Publications
A Compressible Scaffold for Minimally Invasive Delivery of Large Intact Neuronal Networks
An improved model for predicting electrical conductance in nanochannels
Comment on AC frequency characteristics of coplanar impedance sensors as design parameters by Jongin Hong, Dae Sung Yoon, Sung Kwan Kim, Tae Song[...]
Detection of Alzheimer’s disease amyloid-beta plaque deposition by deep brain impedance profiling
Development of a bacterial biosensor for arsenite detection
Microfluidic synthesis of chitosan-based nanoparticles for fuel cell applications
Modification of PDMS to fabricate PLGA microparticles by a double emulsion method in a single microfluidic device
Nanofluidic platform for label-free proteins detection
Planar hydrodynamic traps and buried channels for bead and cell trapping and releasing
Tunable Oscillating CMOS Pixel for Subretinal Implants
See complete list of publications (386)
An improved model for predicting electrical conductance in nanochannels
Comment on AC frequency characteristics of coplanar impedance sensors as design parameters by Jongin Hong, Dae Sung Yoon, Sung Kwan Kim, Tae Song[...]
Detection of Alzheimer’s disease amyloid-beta plaque deposition by deep brain impedance profiling
Development of a bacterial biosensor for arsenite detection
Microfluidic synthesis of chitosan-based nanoparticles for fuel cell applications
Modification of PDMS to fabricate PLGA microparticles by a double emulsion method in a single microfluidic device
Nanofluidic platform for label-free proteins detection
Planar hydrodynamic traps and buried channels for bead and cell trapping and releasing
Tunable Oscillating CMOS Pixel for Subretinal Implants
See complete list of publications (386)
Use for
Renaud, P.
Renaud, Ph.
Renaux, P.
Renaud, Ph
Renaud, P
Philippe, Renaud
Renaud, Ph.
Renaux, P.
Renaud, Ph
Renaud, P
Philippe, Renaud
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