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PUBLICATIONS

ARTICLES

  1. Wang X., Lin Q., Ramachandran S., Pembouong G., Pansu R. B., Leray I., Lebental B., Zucchi G.
    Optical chemosensors for metal ions in aqueous medium with polyfluorene derivatives: Sensitivity, selectivity and regeneration. Sensors and Actuators B: Chemical, 2019 (286), 5513.
    DOI: 10.1016/j.snb.2019.01.013
     
  2. Bodelot L., Pavić L., Hallais S., Charliac J., Lebental B.
    Aggregate-driven reconfiguration of carbon nanotubes in thin networks under strain: in-situ characterization. Scientific Reports, 2019 (9), 5513.
    DOI: 10.1038/s41598-019-41989-2
     
  3. Maurice A., Bodelot L., Tay B. K., Lebental B.
    Controlled, Low‐Temperature Nanogap Propagation in Graphene Using Femtosecond Laser Patterning. Small, 2018 (14), 1801348.
    DOI: 10.1002/smll.201801348
     
  4. Kong Q., Bodelot L., Lebental B., Lim Y. D., Shiau L. L., Gusarov B., Tan C. W., Liang K., Lu C., Tan C. S., Coquet  P., Tay B. K.
    Novel three-dimensional carbon nanotube networks as high performance thermal interface materials. Carbon, 2018 (132), pp. 359-369.
    DOI: 10.1016/j.carbon.2018.02.052
     
  5. Michelis F., Bodelot L., Bonnassieux Y., Lebental B.
    Highly reproducible, hysteresis-free, flexible strain sensors by inkjet printing of carbon nanotubes. Carbon, 2015 (95), pp. 1020-1026.
    DOI: 10.1016/j.carbon.2015.08.103

 

CONFERENCES

  1. Bodelot L., Charliac J., Hallais S., Lebental B., Pavic L., Tanguy A.
    In-situ investigation of local motion mechanisms in carbon nanotubes strain sensors. C'NANO 2017, The Nanoscience Meeting, Lyon, France, December 5-7 2017.

  2. Lebental B., Benda R., Bodelot L., Florea I., Godumala M., Gusarov B., Gutierrez A., Loisel L., Merliot E., Ramachandran S., Wang X. Y., Zucchi G.
    Carbon nanotube sensor array for water monitoring with conjugated polymers. C'NANO 2017, The Nanoscience Meeting, Lyon, France, December 5-7 2017

  3. Michelis F., Bodelot L., Laheurte J.-M., Zaki F., Bonnassieux Y., Lebental B.
    Wireless nanosensors for embedded measurement in concrete structures. NICOM 5 - Fifth International Symposium on Nanotechnology in Construction, May 2015, Chicago, United States. DOI: 10.1007/978-3-319-17088-6_51

  4. Michelis F., Bodelot L., Cojocaru C.-S., Sorin J.-L., Bonnassieux Y., Lebental B.
    Wireless flexible strain sensor based on carbon nanotube piezoresistive networks for embedded measurement of strain in concrete. 7th European Workshop on Structural Health Monitoring, July 2014, Nantes, France.  hal-01022026

 

PATENTS

  1. Zucchi G., Lebental B., Loisel L., Ramachandran S., Flores Guttiérez A., Wang X., M. Godumala, L. Bodelot. Chemical sensors based on carbon nanotubes functionalised by conjugated polymers for analysis in aqueous medium. World patent application WO218189479A1, April 2018.

  1. Zucchi G., Lebental B., Loisel L., Ramachandran S., Flores Guttiérez A., Wang X., M. Godumala, L. Bodelot. Capteurs chimiques à base de nanotubes de carbone fonctionnalisés par des polymères conjugués pour l’analyse en milieu aqueux. Patent application FR1753131A by EP/CNRS/IFSTTAR, April 2017.

 

INVITED PRESENTATIONS

  1. Lebental B., Bodelot L., Michelis F., Bonnassieux Y.
    Capteurs à nanotubes de carbone imprimés : manufacturabilité et fiabilité pour les applications. Journée inaugurale de Sense City, 23 mars 2015, Marne-la-Vallée, France.

 

PH.D. THESES

  1. Xinyang Wang.
    Conjugated polymers for the elaboration of optical and ohmic sensors for water monitoring​. April 2019. > download
  1. ​Fulvio Michelis.
    Wireless nano sensors for embedded durability monitoring in concrete. October 2015. > download