F
Fabien Josse
Researcher at Marquette University
Publications - 166
Citations - 3132
Fabien Josse is an academic researcher from Marquette University. The author has contributed to research in topics: Surface acoustic wave & Surface acoustic wave sensor. The author has an hindex of 32, co-authored 161 publications receiving 2955 citations. Previous affiliations of Fabien Josse include Georgia Institute of Technology & Kimberly-Clark.
Papers
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On-Line Detection of Nonspecific Protein Adsorption at Artificial Surfaces
Robert Ros Seigel,Philipp Harder,Reiner Dahint,Michael Grunze,Fabien Josse,Milan Mrksich,Milan Mrksich,George M. Whitesides +7 more
TL;DR: By investigating the adsorption kinetics of fibrinogen at differently terminated self-assembled monolayers (SAMs) of alkanethiols on thin gold films, it is demonstrated that acoustic plate-mode sensors are a promising analytical tool for studying the adsorbent of proteins.
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Sensitivity of the acoustic waveguide biosensor to protein binding as a function of the waveguide properties
TL;DR: Results indicate that the thickness of the polymer guiding layer is critical for obtaining the maximum sensitivity for a given geometry but a trade-off has to be made between the theoretically determined optimum thickness for waveguiding and the device insertion loss.
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Analysis of resonating microcantilevers operating in a viscous liquid environment
TL;DR: In this paper, the characteristics of resonant cantilevers in viscous liquids are analyzed in terms of the added displaced liquid mass and the liquid damping force for both, the resonance frequency and the quality factor (Q-factor).
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Thermal Excitation and Piezoresistive Detection of Cantilever In-Plane Resonance Modes for Sensing Applications
TL;DR: In this article, different cantilever geometries with in-plane resonance frequencies from 50 kHz to 2.2 MHz have been tested, with quality factors as high as 4200 in air and 67 in water.
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Quartz crystal resonators as sensors in liquids using the acoustoelectric effect
Zack A. Shana,Fabien Josse +1 more
TL;DR: In this paper, a transition region is created in which the lateral decaying acoustic field is enhanced by modifying the geometry of the electrode at the QCR surface in contact with the solution, which contributes to the total change in frequency.