BRISSET Hugues

Articles

• Antifouling piezoelectric vibratory system
  24 July 2024, by ChB

  Acronym: PIEZOVIB
  Funding: ANR
  Short Overview: The PIEZOVIB project, between the CEA, the MAPIEM and the IFREMER, fits into this context. The proposed solution uses the vibration of the measuring surface by the use of piezoelectric actuators, outside the measuring periods. The surfaces will be transparent or not depending on the type of measurement. This project is based on the conclusive experience acquired in this field for three years, between the MAPIEM laboratory of the University (…)

• Innovative Dual-detection sensor for Environmental monitoring of metAL in WATER
  2 February 2024, by CaB

  Acronym : IDEALWATER
  Funding: ANR - Agence Nationale de la Recherche
  Short Overview: Accurate monitoring of trace metals in water is of outmost importance for the environment preservation and for human health. Therefore, there are increasing concerns to develop novel and robust portable sensors in order to control their levels. IDEALWATER project aims to design a novel in-situ device based on fluorescence and electrochemical dual-mode detection to measure trace metal ions in natural (…)

• Transparent piezoelectric vibrating system for antifouling applications
  24 July 2024, by ChB
• Fabrication and characterization of biomimetic textures for antifouling applications
  24 April 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
• Influence of sharklet-inspired micropatterned polymers on spatio-temporal variations of marine biofouling
  5 December 2022, by JFB
• Development, Optimization, Biological Assays, and In Situ Field Immersion of a Transparent Piezoelectric Vibrating System for Antifouling Applications
  4 February 2022, by RB
• Smart polymers for sustainable marine antifouling coatings
  25 April 2024, by ChB

  ECO-SmartAF :
  Funding: ANR
  Short Overview: The ECO-SmartAF project aims to develop new sustainable and environmentally friendly marine antifouling coatings to reduce the carbon footprint of maritime transport. Our approach is to design smart coatings that combine contact activity with appropriate amphiphilic surface chemistry, both of which prevent the adhesion of marine organisms. Smart alkoxyamine-based monomers will be designed to prepare seawater and/or enzyme-responsive polymers to (…)

• NEw biomimetic Lab-on-Chip device for marine water MOnitoring
  11 September 2020, by CaB

  Acronym : NEMO Funding: ERANET MarTERA & ANR
  Involved MAPIEM permanent members: BRANGER Catherine BRISSET Hugues Partners: [KLEARIA->https://www.klearia.com [DCU Water Institute->https://dcuwater.ie

• Bioinspiration and microtopography as non-toxic strategies for marine bioadhesion control
  14 December 2021, by JFB