LABORATOIRE DE RECHERCHE EN NANOSCIENCES (LRN) - EA 4682

LRN

LRN Team Director : Pr. Louis GIRAUDET

18 staff members : 4 Researcher/Professor + 2 Engineer/Technical + 3 non-permanent engineers + 8 PhD + 1 associated member

Highlight

Dr. J. Mallet and Dr. O. Simonetti received each EXEBIO Interdisciplinarity 2023-2024 Grant :

  • CELIBAT project : MXenes based Composite Electrodes for US BATterie (J. M.)
  • GRIOT project : Green Insulator for sustainable Organic elecTronics (O.S.)
Lauréats Exebio 2024

Last publication

Dynamized ultra-low dilution of Ruta graveolens disrupts plasma membrane organization and decreases migration of melanoma cancer cell

https://doi.org/10.1080/19336918.2022.2154732

CAM
Nanophoteur

EUR Nanophot

Our lab' is actively involved in NANO-PHOT Graduate School Master.

Collaboration between URCA and UTT has been developing a programme on nanophotonics targeted for master and doctorate students, with a focus on teaching and research.

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NANO'MAT PLATFORM

Nano’Mat is a two-site Nanofabrication and Nanocharacterization platform (Troyes/UTT and Reims/URCA) dedicated to materials for optics, mechanics, biology and agro-resources.

Please, learn about our staff and equipments here.

JOB OFFERS

*** NEW ***

Past offers - Hiring closed

â–º Study of the mechanisms of injection at the electrode/channel contacts of organic transistors by techniques coupled in electrical and optical near-field

â–º PhD COV Sensor

â–ºPhD in AFM/KPFM instrumental development : Français - English

RESEARCH TOPICS

LRN is a strong unit with expertise in near-field instrumentation and nanotechnology, which spread out its know-how in various fields of application. The multidisciplinary nature of the team is emphasized with the presence of physicists, biophysicists and electronics engineers. This opens up a wide range of applications, from optoelectronics to sensors and biomedical applications. Our lab’ nurtures a powerful synergy and multiplies collaborative projects with L2N at UTT.

KNOWLEDGES AND SKILLS

  • Instrumental developments in atomic force microscopy and electron microscopy, applied to biology/health, agro-sourced materials, advanced materials, sensors, or electronics
  • Modeling and advanced electrical characterization of semiconductor components, application to photovoltaics, agro-sourced materials, sensors, and healthcare

EXPERIMENTAL TOOLS AND STRUCTURES

  • 6 AFMs (high-speed, mechanical, electrical, biological, Raman...)
  • Scanning Electron Microscope (SEM) JEOL7900F instrumented (X-ray analysis, crystallography, cathodoluminescence, traction...)
  • Clean room equipped with a range of equipment for electrical processing and characterisation
  • UV-visible and infrared spectrophotometers and spectrofluorometers
  • Cellular culture rooms with biochemistry and molecular biology equipment

KEYWORDS

Atomic force microscopy; Near-field instrumentation; Biosensors; Nanobiotechnologies; Nanomedicine; Nanomaterials elaboration

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Financial Support Acknowledgement