En Cours

Articles

• CHARLES Paul-Elie
  1 October 2024, by IM

  From 01/11/2023 to 01/11/2026

• Study of marine biofilms as bioindicators of the chemical quality of seawater in the mediterranean coastal environment
  14 October 2024, by Farah IBRAHIM

  Beginning: October 2024

• VANNIER Pauline
  14 November 2023

  Research Topics
  Biofilms from deep marine environments

• Photopolymerized Zeolite/MOF@Polymer Hybrid Materials as Mixed Membranes for Improved Gas Separation
  29 January, by IM

  Acronym: PROMIZE
  Short Overview: The PROMIZE project is dedicated to the innovative development of zeolite/MOF-polymer hybrid materials. Its core mission is to design advanced hybrid mixed matrix membranes (MMMs) that are mechanically, thermally, and chemically stable, offering cost-effective solutions with high-end performance capabilities for CO2 removal and the purification of CH4 and H2-rich gas feeds. These objectives align with industrially relevant conditions encompassing humidity, (…)

• ACHIT Houssem Eddine
  14 April, by Farah IBRAHIM

  From 07/04/2025 to 06/06/2025 Research Topics
  Elaboration and characterization of nanostructured vitrimers

• BERLIOZ Sophie
  3 June 2016

  Research Topics
  Biocomposites, nanocomposites, durability, polymer

• Etude des BIOFIlms marins comme bio-INDICateurs de la qualité chimique de l’eau de mer en milieu côtier méditerranéen
  4 April 2024, by JFB

  les résultats du projet BIOFINDIC (2021-2024) financé par l’Agence de l’eau RMC, basé sur la campagne SUCHIMED 2021 opéré par IFREMER, ont permis de valider l’intérêt des biofilms marins comme bioindicateurs de la qualité chimique des masses d’eaux côtières méditerranéennes.
  Acronym : BIOFINDIC+
  Funding : Agence de l’Eau RMC
  Short Overview: Le projet BIOFINDIC+ repose sur trois objectifs complémentaires qui doivent permettre de préciser le potentiel de bioindication des contaminants (…)

• Biofouling Integrative characterizatiOn & Description of HYdrodynamic Loadings
  4 February, by JFB

  The current trend is to limit or eliminate cleaning operations in farms in order to preserve their reef effect, and thus reduce their environmental impact, while drastically limiting maintenance costs. This is only possible if the phenomenon of biocolonisation is sufficiently understood to be anticipated. A focus on mooring lines and dynamic cables seems essential, as these key components are presumed to have different hydromechanical behaviour and therefore different wear once colonised. As (…)

• PORTAS Aurélie
  5 September 2023

  From 01/09/2023 to 31/08/2024

• Peinture Assistée par Robot pour Milieu Exigu
  29 January, by IM

  Acronym: PARME
  Short Overview: The aim of the PARM project is to design a robotic solution for the maintenance of steel infrastructures in complex situations, such as tanks, pipes, bilges of ships or certain areas of hydroelectric dams. These areas are so difficult or dangerous to access that operators are unable to maintain them (stripping, anti-corrosion treatment, painting), leading to colossal additional costs for their maintenance.
  In a consortium that include industrial actors (…)