PEARL is a doctoral programme held by the I-SITE ULNE. It is co-funded by the Marie curie COFUND actions within the framework of the European Commission’s H2020 programme. It funds the recruitment of 30 PhD students who will work on interdisciplinary research projects related to the scientific themes of I-SITE ULNE. The first wave of recruitment is open now, until April.
PEARL will follow the "3i" of a MSC Cofund projects thanks to interdisciplinary research projects, international research placements in partner universities and intersectorial secondments in companies for the PhD students. The programme is supported by 34 partners, including the founding members of I-SITE ULNE, 3 prestigious cross-border universities, 9 companies, 5 doctoral training institutions and 2 housing partners.
Eligibility, application process and application deadline
ATTENTION! The project is funded by the European Union and eligible candidates must comply with the mobility rule:
“Applicants from all countries are eligible. However, you may not apply if you have resided or carried out your main activity (work, studies) in France for more than 12 months during the 3 years immediately preceding the call deadline (April, 15th 2020). Time spent as part of a procedure for obtaining refugee status under the Geneva Convention, compulsory national service and/or short stays such as holidays are not taken into account.”
Additional information on the eligibility criteria and application process
Application deadline: April 15
Antibodies against Tumour Associated Carbohydrate Antigens
Click chemistry and unnatural amino acids to illuminate oncogenic activities in living cells
Nano-therapeutics for topical treatment of ocular diseases
CROhn disease and Pollution of Soils
Risk assessment related to Disinfection by-Product formation in drinking water
NMR characterization and antimicrobial activity of mechanically synthesised organometallic complexes
Computer Simulation and Experiments of Radio-Induced Cell Senescence
SofT Robot for mAss Spectrometry in Surgery
FabriCAtion of solid state Micro-SupercapacitOrs for Internet of Things appLications
Formulation in the Amorphus State
Magnesium based Nano Composites for Orthopedic Applications
fMRI-based closed-loop neurofeedback to relieve drug-resistant hallucinations in schizophrenia
Music rhythmic Interaction in Aging and Alzheimer disease