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artificial enzyme: an heteregeneous catalyst – CrystalBall
hybrids for oxidation processes, (ii) to get new scope of chiral sulfoxide production, (iii) to oxidize
The development of Ethnology in France and Germany: A History of entanglement – Anthropos
In the first half of the 20th century, German and French scientific traditions and institutional settings evolved in sometimes very different ways. As for ethnology, certain links between the two respective national epistemologies can be observed, allowing for an interesting study of their «histoire croisée«. This ANR-DFG project aims to do just that.
The DEEP Oceanic lithosphere As an organic carbon factory: how and to which extent do SErpentiniteS generate, stabilize abiotic organic molecules and sustain deep microbial ecosystems? – deepOASES
This multidisciplinary project aims at better constraining the deep carbon and nitrogen cycles in the oceanic lithosphere and more specifically to characterize the impact of serpentinization processes on the production and stabilization of abiotic organic molecules as well as on the development of subsurface microbial ecosystems.
Sustainably REducing energy poVErty – REVE
We use different methodologies to account for the numerous aspects of energy poverty, to highlight the main mechanisms at play and to provide energy policy recommendations.
Sulfoxide- a novel strategy for the asymmetric C-H bond activation – Sulf-As-CH
Since few years organic chemistry has been progressively metamorphosed by the tremendous discoveries in the C-H bond activation field. A general use of the C-H activation is yet hampered by the need for finely designed starting material bearing, often hardly transformable, coordinating groups. Besides, a chirality induction during such transformations is also extremely appealing and ambitious. The aim of the herein presented project, Sulf-As-CH, is to address both of these challenges.
Single Molecule Architectures as Lowest-scale Light Emitting Devices – SMAL'LED
Our project aims at combining molecular electronics and nanophotonics, two extremely active research areas in nanoscience. The plan is to explore the interactions between charge transport and light emission at the level of a single-molecule junction by designing and realizing model electroluminescent light sources made of individual molecules either as isolated entities or as highly integrated assemblies
Security properties, process equivalences and automated verification – Sequoia
use of low-entropy secrets which are out of the scope of current analysis techniques.
Representation and manipulation of highly detailed shapes – RichShape
During the last decade, we observed tremendous improvements in the quality of digitally generated images. This is mainly due to the availability of an ever increasing amount of shape details, and sophisticated appearance effects including complex lighting environments. This quest for extremely detailed shapes is further motivated by the generalization of very high resolution displays (e.g., 4k films, retina displays, etc.) which require extremely detailed images.
Random Matrix Theory for Large Dimensional Graphs – RMT4GRAPH
performance study as well as the improvement of a wide scope of signal processing and machine learning methods
Parametric Analysis of Concurrent Systems – PACS
the organisation of a yearly open workshop, as a scope-extended version of the SynCoP workshop organised