Quantum Transport & New 2D Systems (TQNS)
Coordinator : Sandrine JUILLAGUET
| Teaching Researchers (UM): JUILLAGUET Sandrine LANDOIS Périne PEYRE Hervé NANOT Sébastien CNRS Researchers: BRIOT Olivier CONTRERAS Sylvie Research Engineer: COILLOT Christophe Emeritus: KONCZEWICZ Leszek | PhD Student: BENSEBAA Aïda EL ALOUANI Ahmed VAN DIJK Harmke |
Our research activities focus primarily on the properties of wide-bandgap materials (nitrides and silicon carbide) and emerging layered (2D) materials (particularly graphene and transition metal dichalcogenides).
Regarding wide-bandgap materials, the main objective is to correlate the temperature behavior of components (diodes, transistors) with the electronic properties of their constituent materials, and to contribute to material optimization and doping control.
For 2D materials, our work spans from synthesis to applications, with a focus on studying their fundamental properties. We are particularly interested in large-area growth, fundamental electronic transport properties, and the potential applications of graphene (a zero-gap semiconductor) and dichalcogenides (semiconductors) for sensors (magnetic field sensors and environmental sensors).
All of this research is organized around three main themes shared by the teams in the PA axis and in collaboration with other laboratory teams:
Research Fields :
- Innovative materials – from growth to physical studies
- Physics for the environment and health
- Diffusive and quantum transport in 2D materials
Equipment :
- Optical platform
- High temperature RTP furnace
- Instrumental Platform Nanoelectronics, Metrology & Terahertz
- Electronic Characterization, Measurements, and Test Benches
- Gas Test Bench
Funding :
- ANR GHRAVITI : GRaphene HAll crosses, VersatIle and performant sensors for quantifying inhomogeneous magneTIc field at the nanoscale
- ANR MIGRASENS : Molecular Imprinted polymer/GRAphene for environmental microSENSors network
- ANR SUPERZIC : Graphene superlattice induced by zwitterions self-assembly
- ANR VanaSiC : Epitaxial growth of vanadium-doped SiC for the fabrication of back-grid graphene components
Recent theses :
- DINAR Khalid (2021-2024)
- PAIN Yves (2021-2024)
- BASSALER Julien (2020-2024)
- AVOGADRI Colin (2020-2023)
- CASTILLO ARVELO Ivanovitch (2020-2023)
- HRICH Haitham (2019-2022)