31 nano positions at CNRS in France

PHD Candidate (M/F/D) Numerical design of bottom-up fabricated optical Huygens metasurfaces

learning for nano-optics predictions and inverse design. The PhD will take place in the framework of the running ANR project ``AIM'', a collaborative project between physicists and chemists in Bordeaux (Labs

PhD in cell biology and mechanobiology (M/F)

, Vieu C, Thibault C, Maridonneau-Parini I, Poincloux R. Nano Lett. 2018;18(10):6326-6333. Frustrated endocytosis controls contractility-independent mechanotransduction at clathrin-coated structures

Hydroelectronic couplings in nanofluidic transport: evidence of flow tunneling and applications (M/F)

-confined fluids. To this end, we will consider the flow of various fluids through nano-channels made from two-dimensional materials based on multi-layer graphene, hBN, MoS2 or MXene. The nanofabrication

Thèse de chimie organique (M/F)

used in Aims 2-4 of this project. - Aim 2. Develop Nano-SpinTrap and the Nano-BOOST technique Aim 2 will involve preparation of mitochondria-targeted nanoparticle where the spin trap is anchored inside

Post-Doc- Combinatorial deposition of functional thin films by Spatial Atomic Layer Deposition (M/F)

between Materials and Biological Material), - FunSurf (functional thin layers and nano-surface engineering), - NanoMat (Nanomaterials and Advanced Heterostructures) The laboratory is composed of about 100

(M/F) Phd Student : Synthesis, Characterization & Processing of Two-Dimensional Transition Metal Carbides (MXenes) with Halogen Terminal Groups

the MINATEC site. Research is focused on the materials science of functional materials and is organized into the following three themes: (1) Functional Thin Films and Surface Nano-Engineering, (2) Interfaces

PhD (M/F): Multifunctionality of transparency in butterflies

independently and is underpinned by a novel structural diversity (at nano, micro and macroscopic scales) that we have characterised in previous projects. Our work has suggested the existence of varied structural

PhD project in molecular modeling at Université Paris-Saclay (M/F)

interactions of semiconductor nano-sensors with their surrounding bio-molecular environment under the action of intense electromagnetic fields (i.e. lasers) for molecular recognition in medical applications

M/F post-doct "Enhanced biosensing within specially developed optofluidic-fiber platforms for liquid biopsy”

) in biological fluids And/or - Improvement of biosensing performances through theoretical and experimental studies of the plasmonic interactions - Plasmonic nano-functionalization of the optofluidic

PhD in materials science and engineering: organic electronics (M/F)

the design stage. The main objective here is to develop approaches in which molecular chemistry (LCC) and nanotechnology (LAAS-CNRS) are combined to produce micro/nano-scale architectures in which