B
Benoît Piro
Researcher at University of Paris
Publications - 123
Citations - 4539
Benoît Piro is an academic researcher from University of Paris. The author has contributed to research in topics: Biosensor & Electrode. The author has an hindex of 37, co-authored 112 publications receiving 3822 citations. Previous affiliations of Benoît Piro include Paris Diderot University & Centre national de la recherche scientifique.
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Journal ArticleDOI
A Water‐Gate Organic Field‐Effect Transistor
Loïg Kergoat,Lars Herlogsson,Daniele Braga,Benoît Piro,Minh-Chau Pham,Xavier Crispin,Magnus Berggren,Gilles Horowitz +7 more
TL;DR: High-dielectric-constant insulators, organic monolayers, and electrolytes have been successfully used to generate organic field-effect transistors operating at low voltages to report on a new approach to Organic Field-effect Transistor Generation.
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Advances in organic transistor-based biosensors: from organic electrochemical transistors to electrolyte-gated organic field-effect transistors
TL;DR: Electrolyte-Gated OFET (EGOFET) architecture, where EGOFETs differ from OFETs, as in OECTs, in that the gate is separated from the semiconductor by an electrolyte, which allows low voltage operation compared with OfETs gated via solid dielectrics.
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Modified electrodes used for electrochemical detection of metal ions in environmental analysis.
TL;DR: This review aims at presenting the different label-free strategies used to develop electrochemical sensors for the detection of heavy metals such as lead, cadmium, mercury, arsenic etc.
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Detection of glutamate and acetylcholine with organic electrochemical transistors based on conducting polymer/platinum nanoparticle composites.
TL;DR: The aim of the study is to open a new scope for organic electrochemical transistors based on PEDOT:PSS, a material blend known for its stability and reliability, by incorporating small amounts of nano-catalyst during the transistor manufacturing (spin coating).
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Label-free and reagentless electrochemical detection of microRNAs using a conducting polymer nanostructured by carbon nanotubes: application to prostate cancer biomarker miR-141.
TL;DR: A label-free and reagentless microRNA sensor based on an interpenetrated network of carbon nanotubes and electroactive polymer is described and addition of microRNA miR-141 target gives a "signal-on" response, i.e. a current increase due to enhancement of the polymer electroactivity.