Key Responsibilities Development of advanced artificial intelligence (statistical, machine and deep learning) models to extract the chemical, physical, and biological properties and functions embedded in a massive data set of complex molecular structures.Development of the infrastructure and workflow for data collection (numerical data, text, images from the physical-chemical characterization, etc.).Development of complementary multiscale molecular simulation models for the physico-chemical interpretability.Timely implementation of the work plan and reporting.Requirements BSc or BEng in Data Science, Physics, Software/Telecomm Eng, Chemistry or a related field. MSc, MEng or in related fields will also be positively evaluated.Excellent communication and interpersonal skills, with the ability to effectively collaborate within a multidisciplinary team.We will value Organized person, proactive, and with good predisposition to teamwork.Strong organizational, communication, and coordination skills.Ability to adapt to a flexible and changing R&D environment.Ability to work independently.Advanced level of English.Conditions Permanent contract associated with the Momentum Project for a duration of 4 years.41098,95 € annual gross salary according to the salary tables of CSIC.You will benefit from an extensive training plan that includes a Master in Data Science, specialized courses in Artificial Intelligence, a research stay at European research institutions, and further training courses in the required technical and soft skills, as well as the participation in several conferences, among others.Start of contract: before December 31, 2024.Workplace You will carry out your work at the Institute for Materials Science of Barcelona of CSIC (ICMAB-CSIC, www.Icmab.Es) located at the campus of the Universitat Autònoma de Barcelona (UAB), in the group for Nanostructured Molecular Materials for Biomedicine (https://nanomol-bio.Icmab.Es/), and in close collaboration with the Photonics Engineering Group at the University of Cantabria (PEG-UC) through research and formative stays.
NANOMOL-BIO group has renown expertise in the design, production, and characterization of molecular and polymeric materials for biomedical applications. We continuously generate new knowledge in our basic and applied research projects on the micro and nanostructure of molecular materials, and apply this knowledge to develop materials with advanced therapeutic and diagnostic functionality, using sustainable and economically efficient production technologies.
PEG-UC has experience in the field of Telecommunications Engineering developing software interfaces for access to remote data repositories providing computational services and solutions for data integration and management and for the development of automated data processing and diagnosis based on statistical and artificial intelligence (machine and deep learning) models.
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