BIG MAP Battery Interface Genome - Materials Acceleration Platform (DFM.AD006.203)
Thematic area
Physical sciences and technologies of matter
Project area
Infrastrutture di ricerca , strumentazione avanzata e nuove metodologie sperimentali e di calcolo (DFM.AD006)Structure responsible for the research project
Institute of nanoscience (NANO)
Project manager
ELISA MOLINARI
Phone number: 0592055311
Email: elisa.molinari@unimore.it
Abstract
Today, energy production and transport are evolving fast to meet challenging environmental targets and growing demand.The BIG-MAP vision is to develop a modular, closed-loop infrastructure and methodology to bridge physical insights and data-driven approaches to accelerate the discovery of sustainable battery chemistries and technologies. BIGMAP's strategy is to cohesively integrate machine learning, computer simulations and AI-orchestrated experiments and synthesis to accelerate battery materials discovery and optimization. The project will be a lever to create the infrastructural backbone of a versatile and chemistry-neutral European Materials Acceleration Platform, capable of reaching a 10-fold increase in the rate of discovery of novel battery materials and interfaces.
Goals
Today, energy production and transport are evolving fast to meet challenging environmental targets and growing demand.The BIG-MAP vision is to develop a modular, closed-loop infrastructure and methodology to bridge physical insights and data-driven approaches to accelerate the discovery of sustainable battery chemistries and technologies. BIGMAP's strategy is to cohesively integrate machine learning, computer simulations and AI-orchestrated experiments and synthesis to accelerate battery materials discovery and optimization. The project will be a lever to create the infrastructural backbone of a versatile and chemistry-neutral European Materials Acceleration Platform, capable of reaching a 10-fold increase in the rate of discovery of novel battery materials and interfaces.
Start date of activity
01/09/2020
Keywords
BATTERY, INTERFACE, GENOME
Last update: 08/09/2024