Remote contract for PhDs in Physics, Applied Physics, or related fields. Work on cutting-edge projects with top AI labs while earning $100+/hour, fully remote, with flexible weekly hours. No AI experience requiredRole Overview:Help fine-tune large language models
Remote contract for PhDs in Biology, Biotechnology, Biochemistry, or related fields. Work on cutting-edge projects with top AI labs while earning up to $50+/hour, fully remote, with flexible weekly hours. No AI experience required.Role Overview:Help fine-tune large
Remote contract for PhDs in Chemistry, Chemical Engineering, or related fields. Work on cutting-edge projects with top AI labs while earning up to $100+/hour, fully remote, with flexible weekly hours. No AI experience requiredRole Overview:Help fine-tune large
Role Overview The University of Parma is seeking a motivated Design graduate to join a fully funded PhD research project developed in collaboration with Merck . The research explores how Design can contribute to pharmaceutical innovation by
Job Description: Remote contract for PhDs in Mathematics, Statistics, or related fields. Work on cutting-edge projects with top AI labs while earning $100+/hour, fully remote, with flexible weekly hours. No AI experience required. Role Overview: Help fine-tune
Contractor Medical Science Liaison (MSL) – Italy/Germany Territory Haematology / Oncology – Phase 3 Clinical Trial Support Role Overview We are seeking an experienced contractor Medical Science Liaison (MSL) to support a multinational Phase 3 haematology/oncology
A prestigious research institution in Italy is seeking a Postdoctoral Researcher to work on circuit reconstruction and regenerative neuroscience. This role involves devising strategies for single‑neuron mapping, analyzing various datasets, and developing bioinformatics pipelines. Candidates need a
Postdoctoral Researcher – Circuit Reconstruction & Regenerative Neuroscience (ERC CUSTOM_MADE) Department of Neuroscience, University of Turin, Italy Project We aim to rebuild functional striatal circuits by grafting human striatal progenitors with optimized properties in preclinical models