NOBLET (LEJARS) Marlène

Articles

• Well-defined graft copolymers of tert-butyldimethylsilyl methacrylate and poly(dimethylsiloxane) macromonomers synthesized by RAFT polymerization
  3 June 2016
• Hydrodynamique et biocides façonnent les communautés de biofilms marins sur surfaces artificielles
  27 November 2019
• Clean Antifouling Coating (REVêtement Antifouling Propres)
  3 July 2018, by Hugues BRISSET

  Acronym :
  REVAP Funding:
  Programme de soutien à la Recherche (PSR-SIIRI) du ministère Economie, Science et Innovation du Quebec Short Overview:
  The aim of the REVAP project will be to assess the antifouling efficacy of a new type of coating based on xerogel and consequently environmentally friendly. This three years project, initiated by Pr Karine Lemarchand (UQAR/ISMER Rimouski, QC) will be achieved in collaboration with Dr. Jean-François Briand (UTLN, France) and the Mirapakon (…)

• Enzymatic Coatings Inhibiting Fouling and Corrosion
  17 January 2018

  Funding: ANR Astrid
  Short Overview: This project will aim to set up enzyme based formulations to develop antifouling (AF) and anticorrosion coatings. The use of the enzyme SsoPox lactonase is of prime interest as it acts by preventing bacterial communication without killing bacteria. The enzyme also presents a very limited toxicity unlike other anti-bacterial agents classically used in AF paints such as copper. URMITE and MAPIEM have decided to collaborate to set up a technological (…)

• Drag Reducing and Antifouling Coatings for Navy Ships
  6 June 2016, by Hugues BRISSET

  Acronyme: DRACONS
  Descriptif
  Le projet DRACONS est un projet de recherche et développement associé à la maîtrise d’ouvrage et orienté vers la détermination des performances de revêtements antifouling. Il vise à : étudier les conditions de vieillissement accéléré sur une courte période pour l’évaluation de leurs performances, étudier la formation des biofilms sur des surfaces revêtues immergées in situ et in vitro, étudier leurs incidences sur la réduction de la trainée hydrodynamique. (…)

• Synthesis of diblock copolymers by the RAFT process : Application for FRC/SPC hybrid marine antifouling coatings
  9 June 2016, by Hugues BRISSET

  Beginning: 2009
  Defence: October 22, 2012

• Siloxy silylester methacrylate diblock copolymer-based coatings with tunable erosion and marine antifouling properties
  24 July 2020, by ChB
• Use of ferrocene-based polymers for controlling the adhesion of bacteria
  3 June 2016
• Bacterial anti-adhesion activity based on the electrochemical properties of polymethacrylates bearing ferrocenyl pendant groups
  5 November 2018
• Synthèse et caractérisation de polymères méthacryliques électro‐actifs à base de groupements ferrocényles comme candidats pour contrôler l’adhésion bactérienne
  3 June 2016