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the acidity of the aggregates of HFIP molecules created by hydrogen bonds to form a supramolecular catalyst for non-reactive substrates. The student will develop new transformations to create C-C and C
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to create assemblies of nanocubes and thus develop new structures that are inaccessible by other means. The subject of this thesis, funded by the Agence Nationale de la Recherche (French government agency
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will be used to develop detailed atmospheric degradation mechanisms. At the same time, isotopic composition will be studied using a state-of-the-art orbitrap technique, which will be used for isotopic
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working on sustainable approaches to the manufacture and recycling of photovoltaic panels. Objectives: As part of the BioFlexPV project, we will develop multilayers alternating films of biobased polymers
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. The objective of this Ph.D project is to develop a universal strategy to synthesize materials exhibiting improved thermomechanical resistance and high reprocessability. To achieve this, the student will
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offering competitive electricity production over the long term [2]. In this context, the aim is to develop NIR-selective photosensitizers, which is precisely the subject of the present PhD offer