Cleanroom
The cleanroom, located in the Condorcet building on Université Paris Cité’s Grands Moulins campus, offers optimal study and research conditions for the university’s students, PhD students and researchers in optoelectronics, quantum photonics, molecular electronics and the physics-biology interface.
Within the Matériaux et Phénomènes Quantiques laboratory, this proximity cleanroom completes the scientific coherence of the laboratory developed around micro and nanotechnologies.

Clean room
MPQ laboratory
This ANR-approved facility is part of a cleanroom consortium set up at the initiative of the CNRS, called Centrale de proximité Paris Centre. This consortium brings together five research entities:
- Ecole Normale Supérieure (ENS)
- Institut Pierre-Gilles de Gennes (IPGG)
- Institut des Nanosciences de Paris (INSP)
- Paris Observatory
- Our laboratory (Université Paris Cité)
The cleanroom is accessible to teaching projects and staff from laboratories and establishments in the Paris Centre consortium, but is also open to external institutions and companies on request.
The 150m² platform is equipped with all the facilities needed to produce micro-nano devices, including facilities for cleaning, optical and electronic lithography, wet and dry etching, thin-film deposition, characterization and assembly.
For further information, please contact Pascal Filloux
À lire aussi

Cavity-enhanced fractional quantum Hall phases and cavity-modified spin splittings
A collaboration between the Equipe Théorie at MPQ and scientists from ETH Zurich and the Flatiron Institute has demonstrated, both theoretically and experimentally, that giant vacuum fields confined in a split-ring resonator cavity can profoundly alter...

Unravelling the nonlinear generation of designer vortices with dielectric metasurfaces
Researchers from the DON team have demonstrated and analyzed the generation of high-purity second-harmonic vortices with dielectric metasurfaces. These results are published in Light: Science and Applications. Vortex beams are currently drawing a great deal of...

Thermal stability of high-entropy nanoalloys: reality or chimera?
By studying at the atomic scale the thermal behavior of nanoparticles composed of gold, cobalt, copper, nickel and platinum, scientists have revealed that the stability of these so-called high-entropy nanoalloys is much lower than expected, as gold and copper...

On-chip generation of spatial entanglement
The QITE team just published in Phys. Rev. Lett. its work on the generation of spatial entanglement in nonlinear waveguide arrays, in collaboration with C2N and INPHYNI. Combining the generation and manipulation of complex quantum states of light on a single chip is a...