BRIAND Jean-François

Articles

• BRIAND Jean-François
  3 June 2016

  Research Topics microbial ecology and ecotoxicology marine biofilms and biofouling diversity and drivers antifouling coatings contaminants bioaccumulation and bioindication anti-adhesion bioassay

• Temperate and tropical coastal waters share relatively similar microbial biofilm communities while free-living or particle-attached communities are distinct
  30 March 2021, by JFB
• Anti Fouling Electro Coatings
  7 June 2016, by Hugues BRISSET

  Financement:
  ANR-ASTRID
  Descriptif:
  Intitulé du projet : Nouveaux revêtements électroactifs pour inhiber l’adhésion du biofilm marin sur des structures immergées en mer. (New AntiFouling ELECTROactive COATINGS to stop the settlement of marine biofouling on seawater immersed structures)
  This 3-years project was funded by the ANR ASTRID 2012 research program.
  The aim of this project is to develop new non-toxic or ecological AF paints combining selfpolishing properties and an AF (…)

• What governs marine fouling assemblages on chemically-active antifouling coatings?
  15 January 2022, by JFB
• What about the ability of the Mediterranean brown seaweed Taonia atomaria to control foulers but also to select surface-associated bacteria?
  8 June 2016
• Utilisation de l’approche des réseaux moléculaires pour l’annotation de nouvelles classes de glycérolipides au sein du métabolome de la macroalgue brune Taonia atomaria
  13 June 2019
• Accounting for BIOfouling through established Protocols of quantification
  19 January 2017, by Hugues BRISSET

  Elaborer des méthodes de caractérisation et de quantification du biofouling pour fiabiliser les données d’entrée nécessaires au dimensionnement et à la maintenance des systèmes Energies Marines Renouvelables (EMR).

• 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 (…)

• Impact de l’hydrodynamisme sur la structure de la communauté microbienne et l’expression métabolique des biofilms marins dans un environnement semi-contrôlé
  25 August 2023, by JFB
• Annotation de nouvelles classes de glycérolipides par l’approche des réseaux moléculaires au sein du métabolome de la macroalgue brune Taonia atomaria
  25 May 2019