Poste Actuel 

Maître de conférences Hors Classe au département de Physique

(Université d'Évry val d'Essonne)

Laurent Bacri

    Together with Loïc Auvray, Laurent Bacri has played a pioneering role in advancing the field of nanopores in France from both a polymer physics and soft matter perspective. Over this period, he has cultivated expertise in understanding the dynamics of confined environments, such as nanopores. This research theme has enabled him to explore and contribute to the comprehension of the physical processes governing the confinement of individual biomolecules or nanoparticles. 

    His work has a multidisciplinary character, fostering collaborations with various scientific communities, including surface chemistry, microfluidics, nanomaterials physics, and biology, not only in France (such as ENS Paris-Saclay and C2N) but also across Europe (Freiburg, Bremen, Rome) and in the United States (University of Massachusetts). Over the past decade, his research has been predominantly focused on gaining insights into dynamic processes occurring within solid-state nanopores.

    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.
    • Passivation et fonctionnalisation spécifiquesde nanopores solides.
    • Dispositifs microfluidiques.


    • Mesure de courants ioniques.
    • Microscopies optique et fluorescence.



    • 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)

    • 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)



    • Greive, S.J., Bacri, L., Cressiot, B. and Pelta, J. 2023-12. Identification of Conformational Variants for Bradykinin Biomarker Peptides from a Biofluid Using a Nanopore and Machine Learning. ACS Nano 2023DOI: 10.1021/acsnano.3c08433
    • Stierlen, Aïcha ; Greive, Sandra J. ; Bacri, Laurent ; Manivet, Philippe ; Cressiot, Benjamin ; Pelta, Juan Nanopore Discrimination of Coagulation Biomarker Derivatives and Characterization of a Post-Translational Modification ACS Cent. Sci. 2023, Vol. 9, No. 2 p. 228-238 DOI: 10.1021/acscentsci.2c01256

    • Fujinami Tanimoto, Izadora Mayumi ; Cressiot, Benjamin ; Greive, Sandra J. ; Le Pioufle, Bruno ; Bacri, Laurent ; Pelta, Juan  Focus on using nanopore technology for societal health, environmental and energy challenges  Nano Res2022, Vol. 15, No. 11 p. 9906-9920 DOI:10.1007/s12274-022-4379-2
    • Fujinami Tanimoto, Izadora Mayumi ; Zhang, Jiayi ; Cressiot, Benjamin ; Pioufle, Bruno Le ; Bacri, Laurent ; Pelta, Juan Dynamics of DNA Through Solid-state Nanopores Fabricated by Controlled Dielectric Breakdown Chemistry An Asian Journal 2022 , Vol. 17, No. 24 DOI: 10.1002/asia.202200888

    Fujinami - Tanimoto, Izadora ; Cressiot, Benjamin : Jarroux, Nathalie ; Roman, Jean ; Patriarche, Gilles ; Le Pioufle, Bruno ; Pelta, Juan ; Bacri, Laurent}, Biosensors and Bioelectronics2021, 183 113195 DOI: 10.1016/j.bios.2021.113195


    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 DOI: 10.1002/smtd.202000090

    Bétermier, Fanny ; Cressiot, Benjamin ; Muccio, Giovanni Di ; Jarroux, Nathalie ; Bacri, Laurent ; della Rocca, Blasco Morozzo ; Chinappi, Mauro ; Pelta, Juan ; Tarascon, Jean-Marie Single-sulfur atom discrimination of polysulfides with a protein nanopore for improved batteries Communications Materials 2020 Vol. 1, No. 1 DOI: 10.1038/s43246-020-00056-4

    Tanimoto, I. M. F. ; Cressiot, B. ; Roman, J. ; Jarroux, N. ; Patriarche, G. ; Le Pioufle, B. ; Pelta, J. ; Bacri, L. Nanoparticle detection by solid-state nanopore integrated into a reusable microfluidic device 2020 MicroTAS 2020 - 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences p. 280-281


    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 DOI: 10.1021/acssensors.8b01636

    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

    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


    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

    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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