C
Christophe A. Marquette
Researcher at Lyon College
Publications - 176
Citations - 5161
Christophe A. Marquette is an academic researcher from Lyon College. The author has contributed to research in topics: Biosensor & Luminol. The author has an hindex of 36, co-authored 166 publications receiving 4513 citations. Previous affiliations of Christophe A. Marquette include Concordia University Wisconsin & Centre national de la recherche scientifique.
Papers
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Impedance‐based detection of DNA sequences using a silicon transducer with PNA as the probe layer
TL;DR: Electrochemical impedance measurements were used for the detection of single-strand DNA sequences using a peptide nucleic acid (PNA) probe layer immobilized onto Si/SiO2 chips with significant shifts in the semiconductor's flat-band potential after immobilization and hybridization.
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Human Skin 3D Bioprinting Using Scaffold‐Free Approach
Léa Pourchet,Amélie Thépot,Marion Albouy,Edwin J. Courtial,Aurélie Boher,Loïc J. Blum,Christophe A. Marquette +6 more
TL;DR: The focus of the present study is to demonstrate the capability of a newly developed ink formulation and the use of an open source printer for the production of a really complete skin model, both at the molecular and macromolecular level.
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Applications of the luminol chemiluminescent reaction in analytical chemistry.
TL;DR: This critical review discusses the results published between 2000 and 2005 on the development of analytical systems based on the luminol chemilumineinescent and electrochemiluminescent reactions.
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Nanosized hybrid particles with double luminescence for biological labeling
Cédric Louis,Rana Bazzi,Christophe A. Marquette,Jean-Luc Bridot,Stéphane Roux,Gilles Ledoux,Bruno Mercier,Loïc J. Blum,and Pascal Perriat,Olivier Tillement +9 more
TL;DR: In this paper, a gadolinium oxide (Gd2O3) core doped with the luminescent Tb3+ ions was obtained by applying, with modifications, the polyol route, which allows direct precipitation of oxide nanoparticles in a polyalcohol medium.
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Diazonium-protein adducts for graphite electrode microarrays modification: direct and addressed electrochemical immobilization.
TL;DR: A promising strategy to immobilize markedly different biological entities was presented, providing an excellent spatial specificity of the electro-addressing of proteins.