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