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| Funder | European Commission |
|---|---|
| Recipient Organization | Uniwersytet Mikolaja Kopernika W Toruniu |
| Country | Poland |
| Start Date | Feb 01, 2023 |
| End Date | Jan 31, 2027 |
| Duration | 1,460 days |
| Number of Grantees | 20 |
| Roles | Associated Partner; Participant; Coordinator |
| Data Source | European Commission |
| Grant ID | 101073474 |
Weak intermolecular interactions are the driving force of relevant processes including protein folding, charge transfer through solid state junctions in solar cells and collisions in interstellar gas clouds. Understanding the nature of these forces is essential to achieve better control and optimization of these processes.
Nowadays, modelling has become an essential tool for unravelling experiments and aiding materials design. However, the accurate description of weak interactions is plenty of challenges for many theoretical approaches.
Atomistic simulations can help decipher the mechanisms underlying complex processes nonetheless precise molecular potentials are required to achieve a quantitative and qualitative description of these physical-chemical processes.
Despite the importance of this field, there is, at present, no systematic and comprehensive training in this subject, particularly in the fundamentals of the theory, method development, techniques to rigorously test the theory using experimental data, and the creation of new models using detailed physical understanding combined with machine-learning.
The PHYMOL network aims to fill in this fill this gap by bringing together a group of experts in the field of chemical physics, intermolecular interactions, simulation and machine-learning with several industrial and academic partners.
This program will exploit the synergies between an accurate description of intermolecular interactions and the use of machine learning techniques towards the generation of new molecular potentials.
Combining scientific investigation with an intensive training program PHYMOL will help shape a new generation of researchers with the capability of developing accurate molecular potentials impacting a broad range of applications.
Fundacion Publica Gallega Centro Tecnologico de Supercomputacion de Galicia; Nanogap Sub-Nm-Powder Sa; Stichting Radboud Universiteit; Smithsonian Astrophysical Observatory; Kido Dynamics Espana Sl; Soldrevet Chemistry By Thomas Preston; Universidad de Santiago de Compostela; Ustav Organicke Chemie A Biochemie, Av Cr, V.V.I.; Avant-Garde Materials Simulation Deutschland Gmbh; Agencia Estatal Consejo Superior de Investigaciones Cientificas; Universite Du Luxembourg; Eotvos Lorand Tudomanyegyetem; Auburn University; The Regents of the University of California; Universidad Autonoma de Madrid; Queen Mary University of London; University College London; Uniwersytet Mikolaja Kopernika W Toruniu; Sorbonne Universite; Fundacja Candela
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