LAURENT BACRI

LAURENT BACRI

Poste Actuel 

Maître de conférences Hors Classe au département de Physique

(Université d'Évry val d'Essonne)

Laurent Bacri

    Recherche

    Activités de recherche

    • Compréhension des processus physiques en milieux confinés.
    • Confinement et transport de chaînes de polymères (PEG), biopolymères (protéines, polysaccharides dans des canaux protéiques.
    • Confinement et transports dans des nanopores solides.
    • Fonctionnalisation de nanopores solides.
    • Dispositifs microfluidiques.

    Outils

    • Measurement of ionic currents.
    • Optical and fluorescence microscopy.

    Collaborations

     

     

    Encadrements

    • Kamal Bouazza L3 Physique (2019)

    • Izadora Mayumi Fujinami Tanimoto  Master 2 Monabiphot (Nov 2018- Juillet 2019)

    • Izadora Mayumi Fujinami Tanimoto  Master 1 Monabiphot (Juillet-Octobre 2018)

    • Jean Roman Doctorant, ED SDSV, (2014-2018)

    Enseignements

    • L1PC: Mécanique (TD15H)
    • L2PC: Optique (CM7,5H-TD9H-TP6H), PPP (9H), Electricité (24H TP)
    • L2PC: Mécanique du solide (CM15H-TD13,5H-TP9H)
    • L2PC: Projets Expérimentaux de Physique (CM 6H-TP 28H)
    • M1 Matériaux fonctionnels (Paris-Saclay): Phys. des polymères (CM9H-TD6H)
    • M2 Mat. innovants (Paris-Saclay): Surface-interfaces (9H), milieux confinés (15H)
    • M1 Capes: Séquences pédagogiques (9H)
    • M2 Agrégation interne: Mécaniques (CM3H-TP7H)

     

     

    Publications

      2020  

    Cressiot, B.; Bacri, L. ; Pelta, J.The Promise of Nanopore Technology: Advances in the Discrimination of Protein Sequences and Chemical Modifications Small Methods, Wiley, 2020, 2000090

      2019  

    Cressiot, B.; Ouldali, H.; Pastoriza-Gallego, M.; Bacri, L.; van der Goot, F. ; Pelta, J. Aerolysin, a powerful protein sensor for fundamental studies and development of upcoming applications  ACS Sensors, 2019

      2018  
    1. Roman, J.; Francais, O.; Jarroux, N.; Patriarche, G.; Pelta, J.; Bacri, L. & Pioufle, B. L. Solid-state nanopore easy chip integration in a cheap and reusable microfluidic device for ion transport and polymer conformation sensing ACS Sensors,2018, 3, 2129-2137
    2. Fennouri, A.; Ramiandrisoa, J.; Bacri, L.; Mathé, J. & Daniel, R. Comparative biosensing of glycosaminoglycan hyaluronic acid oligo- and polysaccharides using aerolysin and alpha-hemolysin nanopores The European Physical Journal E, 2018, 41
    3. Roman, J.; Pioufle, B. L.; Auvray, L.; Pelta, J. & Bacri, L. From current trace to the understanding of confined media The European Physical Journal E, 2018, 41
    4. Mamad-Hemouch, H.; Bacri, L.; Huin, C.; Przybylski, C.; Thiebot, B.; Patriarche, G.; Jarroux, N. & Pelta, J. Versatile cyclodextrin nanotube synthesis with functional anchors for efficiency ion channel formation: design, characterization and ion conductance  Nanoscale, 2018, 10, 15303-15316
    5. Pastoriza-Gallego, M.; Thiébot, B.; Bacri, L.; Auvray, L. & Pelta, J. Dynamics of a polyelectrolyte through aerolysin channel as a function of applied voltage and concentrationstar The European Physical Journal E, Springer Nature, 2018, 41
    6. Bacri, L.; Mamad-Hemouch, H.; Przybylski, C.; Thiebot, B.; Patriarche, G.; Jarroux, N. & Pelta, J.
      Biomimetic ion channels formation by emulsion based on chemically modified cyclodextrin nanotubes Faraday Discuss , 2018, 210, 41-54
      2017  

    1.       Roman, J.; Jarroux, N.; Patriarche, G.; Français, O.; Pelta, J.*; Le Pioufle, B.*; Bacri, L.* Functionalized Solid-State Nanopore Integrated in a Reusable Microfluidic Device for a Better Stability and Nanoparticle Detection. ACS Appl Mater Interfaces2017, 9, 41634–41640DOI: 10.1021/acsami.7b14717

      2016  

    Roman, J.; Français, O.; Jarroux, N.; Patriarche, G.; Pelta, J.; Pioufle, B. L. ; Bacri, L. Nanoparticle Electrical Analysis and Detection with a Solid-state Nanopore in a Microfluidic Device Procedia Eng., 2016, 168, 1475 - 1478 DOI: 10.1016/j.proeng.2016.11.425

      2015  
    1. Mamad-Hemouch, H.; Ramoul, H.; Taha, M. A.; Bacri, L.; Huin, C.; Przybylski, C.; Oukhaled, A.; Thiebot, B.; Patriarche, G.; Jarroux, N.*; Pelta, J.* Biomimetic nanotubes based on cyclodextrins for ion-channel applications Nano Letters, 2015, 15, 7748–7754 DOI: 10.1021/acs.nanolett.5b03938
    2. Baaken, G.; Halimeh, I.; Bacri, L.; Pelta, J.; Oukhaled, A.; Behrends, J. C. High-Resolution Size-Discrimination of Single Nonionic Synthetic Polymers with a Highly Charged Biological Nanopore. ACS Nano, 2015, 9, 6443-6449 DOI: 10.1021/acsnano.5b02096
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