BRESSY Christine

Articles

• Enzymatically biohydrolyzable Beta-D-glucopolymers : new binders for marine antibiofilm erodible coatings
  24 April 2024, by ChB
• Biofouling: the need to develop interdisciplinary teamwork skills for MRE
  25 April 2024, by ChB
• What governs marine fouling assemblages on chemically-active antifouling coatings?
  15 January 2022, by JFB
• Preparation and study of a carbohydrated carbon surface by electrochemical oxidation of beta-D-(4-aminophenoxy)glucopyranose
  19 September 2018, by ChB
• Development, Optimization, Biological Assays, and In Situ Field Immersion of a Transparent Piezoelectric Vibrating System for Antifouling Applications
  4 February 2022, by RB
• Surface Characteristics Together With Environmental Conditions Shape Marine Biofilm Dynamics in Coastal NW Mediterranean Locations
  4 February 2022, by RB
• Poly(trialkylsilyl methacrylate)-based diblock copolymers : A family of hydrolyzable polymers for chemically-active marine antifouling coatings
  8 June 2016
• Siloxy silylester methacrylate diblock copolymer-based coatings with tunable erosion and marine antifouling properties
  24 July 2020, by ChB
• Accounting for BIOfouling through established Protocols of quantification +
  13 June 2019, by Hugues BRISSET

  Acronym:
  ABIOP+ Funding:
  France Energie Marine – ANR (Investissements d’Avenir) Short overview:
  Caractériser qualitativement et quantitativement le biofouling en fonction des sites EMR et des composants concernés grâce à des protocoles innovants, peu couteux et applicables au niveau mondial, reposant sur de solides analyses de données. Involved MAPIEM permanent members: BRESSY Christine BRIAND Jean-FrançoisPartners: France Énergies Marines (FEM, Brest) Ifremer (Brest) Université de (…)

• Electroactive polyacrylates bearing linear conjugated systems based on EDOT moieties
  2 June 2017