Sort by
Refine Your Search
-
Category
-
Program
-
Employer
- CNRS
- CNRS UMR 5503
- ESRF
- European Synchrotron Radiation Facility
- Nantes Université
- AMU Institut de chimie radicalaire
- CEA
- CEA Grenobe
- CNRS and Université de Bordeaux
- ESRF - European Synchrotron Radiation Facility
- Ecole Centrale de Lyon (ECL)
- Grenoble INP - Institute of Engineering
- IEMN-CNRS
- IMT Atlantique
- Institut FEMTO-ST
- Institut des Molécules et Matériaux du Mans
- UNIVERSITE DE LIMOGES
- Université
- Université Grenoble Alpes
- Université Sorbonne Paris Nord
- 10 more »
- « less
-
Field
-
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
-
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
-
dynamically map, in situ and operando, the three-dimensional changes in lattice deformation, strain, composition, and crystallographic defects of nano-crystallites, establishing a comprehensive experimental
-
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
-
) in biological fluids And/or - Improvement of biosensing performances through theoretical and experimental studies of the plasmonic interactions - Plasmonic nano-functionalization of the optofluidic
-
AMU Institut de chimie radicalaire | Marseille, Provence Alpes Cote d Azur | France | about 2 months ago
mitochondria targeting TPP moieties outside (Fig. 1), to be 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
-
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
-
reaction. This will allow to monitor the kinetics of the functionalization reaction to gain new fundamental knowledge on how OCCs are created, gain control on their formation in order to generate novel nano
-
participative research with stakeholders The project is part of the CNRS Chair « TransLittEnv » aiming at determining the impacts of salinization on contaminant dynamic (metals, micro/nano-plastics and
-
of Chemistry and Biology of Membranes and Nano-objects (CBMN) within the European Institute of Chemistry and Biology (IECB). Located on the University of Bordeaux campus, CBMN and IECB are dynamic research