BARRY-MARTINET Raphaëlle

Articles

• Evaluation et caractérisation de l’activité anti-biofilms marins de nouveaux inhibiteurs du quorum sensing, des MIP anti-AHL
  1 September 2023, by JFB

  Funding :
  CD83-APRI Short Overview:
  L’objectif premier est de tester l’activité d’inhibition du quorum sensing (QS), sur des bactéries marines et autres souches bactériennes, de nouveaux composés synthétisés à dessein au laboratoire de type polymères à empreintes moléculaires (molecularly imprinted polymers ou MIP).
  Pour des MIP révélant une activité de séquestration d’AHL intéressante, il s’agira d’analyser leur effet sur le développement de biofilms et sur le métabolisme cellulaire. (…)

• 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).

• Peintures Antifouling pour l’Industrie de la Navigation dans une perspective de Transition Socioécologique
  30 April 2020

  Acronym : PAINTS
  Funding: ANR (FRANCE) - FRQ (QUEBEC)
  Website:
  https://paints.univ-tln.fr
  Short Overview:
  In a context of a global increase of the anthropogenic pressure and impacts on the marine environment, innovative products reducing the ecological footprint of shipping which could be accepted and endorsed by local population should be developed. The general objective of this cross-sectoral, pluri- and interdisciplinary project, which involve both researcher from natural and (…)

• Bioindication of Mediterranean coastal environments associated with biofilms
  30 March 2021, by JFB

  Acronym :
  BIOFINDIC Funding :
  Agence de l’Eau RMC Short Overview:
  L’objectif du projet est d’étudier le potentiel des biofilms comme outil de bioindication de la qualité des masses d’eau méditerranéennes côtières. Elle repose sur deux parties complémentaires : (1) une étude directement couplée à la campagne en mer SUCHIMED, opéré par l’IFREMER, sur les biofilms qui auront colonisés 150 plaques A4 en PE immergées du 16 mars au 7 juillet 2021 sur 50 sites le long des 1800 km des côtes (…)

• 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 (…)

• Impact of phosphate starvation on the metabolome of the biofilm-forming marine bacterium Pseudoalteromonas lipolytica
  24 May 2022
• Multi-omics analysis suggests links between the differentiated surface metabolome and epiphytic microbiota along the thallus of a Mediterranean seaweed holobiont.
  13 March 2020
• Transparent piezoelectric vibrating system for antifouling applications
  24 July 2024, by ChB
• Metal resistance genes enrichment in marine biofilm communities selected by biocide-containing surfaces in temperate and tropical coastal environments
  25 August 2023, by JFB
• 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 (…)