Doctorate Programme on Emerging Battery Storage Technology INspiring Young scientists
European Marie Skłodowska-Curie Actions COFUND PhD Programme
1.
Ultra-fast operando characterizations for high rate energy storage materials
3.
Multiscale Modeling
for the Optimization of the Manufacturing and Interfaces in Solid State Batteries
4.
New ionic lithium and sodium solid state conductors
5.
Electrochemical and structural study of blended positive electrode materials for high power Li-ion batteries
6.
New Oxysulfide Materials as Solid Electrolytes for Solid State Batteries
7.
Development of new sulfate-containing cathode materials based on abundant elements for Na-ion batteries
8.
Multiscale characterization of positive electrodes for Li-ion batteries: from ex situ to operando study
9.
Supercritical fluids, an alternative towards Li-ion battery (LIB) recycling
10.
Hierarchical latent-space models for battery interface dynamics
11.
Solid electrolyte/cathode interfaces in ceramic all solid state batteries
12.
Inorganic ultra-rich composite electrolytes for high performance solid state batteries
13.
Innovative electrolytes for high power devices
14.
Fluorinated solvent based electrolytes and metal anode based batteries
TOPICS
OF COHORT
#1
15.
Protective coatings for metal (Li, Mg) batteries
16.
Synthesis of silicon-based alloys for negative electrodes of Li-ion batterie
17.
Tailored oxides and carbides as active materials for high power energy storage devices
18.
Characterization and understanding of the SEI in Li-ion batteries based on silicon and ionic liquid
19.
Triggering the formation of a passivating interface to enhance the performance of aqueous batteries
20.
Ca and Mg batteries: improvement of performances by interface engineering
21.
2-Dimmensional MXene materials for high power energy storage devices
22.
Development of the Fluidized Bed Chemical Vapor Deposition process to produce high performances battery materials
23.
Novel (poly)anionic structures for highly Li-ion conductive solid polymer electrolytes : A combined theoretical and experimental study
24.
Rational design of improved Li transport mechanisms in composite ceramicpolymer electrolytes by means of electrochemical and solid state NMR characterizations
26
Sustainable and green batteries: fluorinefree lithium-ion cells
27
Modified high-nickel NCA cathode materials for Li-ion batteries
29.
Highly concentrated electrolytes dedicated to lithium-sulfur batteries
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