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Ring opening co-polymerization of succinic anhydride derivatives and epoxides from bio-based resources via organocatalysis – CoCaBio
Considering the environnemental impact and the futur shortage of fossil ressources, the development of materials originated from renewable ressources has become a global concern. The main purpose of this project is to place organocatalysis in the service of ring opening polymerization, for the synthesis of polymers based on renewable resources.
Gymnasia and Athletic Culture in Western and Southern Asia Minor in the Hellenistic and Roman period – GymnAsia
Agonistic Cultures in Western and Southern Asia Minor in the Hellenistic and Imperial Periods
The LINE-1 regulatory network: genome-wide impact of recent transposable elements on mammalian genic activity – ImpacTE
The LINE-1 regulatory network: genome-wide impact of recent transposable elements on mammalian genic activity
Metal- and Liquid-free Organic Lithium-Ion BatteriEs for Sustainable and Safe Energy Storage – MOLIBE
Lithium-ion batteries are considered as the most promising energy storage technology to enable the successful electrification of modern society’s mobility needs. However, beside the necessity for enhanced energy and power, two main issues exist which are the high cost and severe safety concerns. While the first issue is particularly related to the incorporation of pricey metals as Co, Ni or Cu, the latter is mainly associated to the easily flammable and unstable liquid electrolytes.
Inverse modelling of BLACK Carbon emissions using real time data from NETworked sensors – BLACKNET
Black carbon is a tracer of any combustion and therefore of any human activity or natural event that consumes carbon energy. In South-East Asia, there are many such activities and events. It is important to be able to monitor changes in the intensity and location of these sources in order to report on the transition underway and its effects on the environment and climate.
Integrative study of cogNitive abilities on Social InTeractionS in Drosophila melanogaster – INSIghTS
The aim of the integrative and multi-level INSIghTS project, is to investigate the mechanisms underlying winner/loser effects, by identifying molecular mechanisms and their underlying circuitry, while in parallel exploring the impacts on future social interactions in Drosophila melanogaster.
Topological IV-VI semiconductor heterostructures: A platform to study topological phase transitions and strain sensitive topology – TOPO-PLATFORM
The central objective of this project is to resolve the technological challenges for the realization of topological heterostructures and answer the question of how the topological interface states can be tuned and controlled by external means.
Modulating the gene networks underlying phenotypic robustness in plant quantitative immunity – PRobIty
Quantitative disease resistance (QDR) is a form of plant immunity involving complex molecular bases poorly characterized. It is widespread in nature and the only form of effective immunity against necrotrophic pathogens such as the white mold fungus Sclerotinia sclerotiorum. Empirical studies highlighted that QDR is often broad spectrum and durable. The architecture of genetic networks underlying the robustness of the QDR phenotype is currently unknown.
pH Observation of Extracellular Fluid by NMR Involving Xenon – PHOENIX
The goal of the PHOENIX project is to develop a sensitive, specific and non-invasive method to assess and monitor extracellular pH in vivo. This concept is based on the design of pH sensors that can bind 129Xe at physiological pH. Thanks to the high sensitivity of the hyperpolarized 129Xe NMR/MRI technique, this approach will represent a fast and easy way to detect pH variation in tissues and has many advantages over the existing techniques aimed at measuring extra-cellular pH.
Odorant Binding Proteins-based biomimetic optical nose – OBP-optinose
Odorant Binding Proteins-Based Biomimetic Optical Nose