BRISSET Hugues

Articles

• Transparent piezoelectric vibrating system for antifouling applications
  24 July 2024, by ChB
• Design of an histidine-based imprinted polymer as a selective receptor of copper(II) for its detection in seawater
  10 January 2024, by CaB
• Molecularly imprinted polymer electrodes for benzo(a)pyrene detection prepared by surface-initiated photopolymerization
  8 December 2023, by CaB
• Synthèse et caractérisation de polymères à empreintes : intégration dans des électrodes de carbone
  25 November 2022, by CaB
• Towars solution-processed ambipolar organic thin film transistors based on alpha,omega-didtyryl-bithiophene and a fluorocarbon-substituted dicyanoperylene
  3 June 2016
• Controlled synthesis of a molecularly imprinted polymer film on a gold surface through “grafting from” approach for the detection of PAH
  18 July 2023, by CaB
• Synthesis and characterization of copper-imprinted polymers for the design of modified electrodes
  4 December 2018

  Beginning: November 2018
  Defence: October 3rd, 2022

• Surface plasmon resonance multi-sensor for real time illicit drugs detection
  26 May 2016, by webmaster

  Description:
  The general objective of this project are: Obtaining of molecularly imprinted polymers by polymerisation or electropolymerization, Obtaining of molecularly imprinted membranes by phase inversion and sol-gel process, Experiments for using MIP in SPR (Surface Plasmon Resonance) sensors for drug detection, including the soft of new sensor, Testing of the new sensors, mechanical and electronic design, validation of the technical charactertics.Personnes de MAPIEM participant au (…)

• Molecularly imprinted polymer films grafted on gold electrodes as smart electrochemical receptors for the detection of PAH
  25 June 2024, by CaB
• PREVENT - Action 2 "Surveillance"
  6 June 2016, by Hugues BRISSET

  Acronyme: PREVENT Act 2 Description
  S’inscrivant dans la problématique de la surveillance des milieux marins côtiers, un projet de recherche interdisciplinaire a été mis en place au sein de l’Université de Toulon (UTLN) à l’initiative de l’Axe stratégique MEDD (Mer Environnement et Développement Durable) sur une période initiale de 3 ans (2015-2017). Ce projet intitulé PREVENT (PRotection du littoral méditerranéen : EValuation, surveillancE, conséqueNces et implicaTions socio-économiques - (…)