HORIZON-CL5-2022-D2-01-03: Furthering the development of a materials acceleration platform for sustainable batteries (combining AI, big data, autonomous synthesis robotics, high throughput testing) (Batteries Partnership)
Keywords: accelerate | accelerating | access data | AI | AI assisted | AI based | AI-assisted model | AI-assisted models | AI-based orchestration | algorithms | automated | automated characterisation | automated workflow | automated workflows | autonomous decision-making | autonomous materials | autonomous synthesis | batteries | battery | BATTERY 2030+ | battery cell | battery cells | battery characterisation | battery chemistries | battery chemistry | battery community | battery control | battery interfaces | battery material | Battery materials | battery system | Beginning of Life | beyond Li-ion | BOL | cell level | chemistry | chemistry neutral | closed-loop | closed-loop autonomous materials | compounds | computation workflows | computational | Computational modelling | computational workflow | data | data access | Data analysis | data infrastructure | data integration | data modelling | decision-making | development process | discovery process | discovery processes | distributed workflow | distributed workflows | End of Life | engines | EOL | experiment | experimental | experiments | exploitation | exploitation of results | FAIR principles | fully autonomous battery-MAP | genome | genome model | genome models | heterogeneous sites | high energy | HPC architectures | hybrid | hybrid physics | inorganic | integrated simulations | interfaces | interphases | inverse design | inverse materials | LEAPS | LENS | Li-ion | lifetime | lifetime of batteries | MAP-based | MAP-based development process | MAP-based discovery | material synthesis | Materials Acceleration Platform | materials synthesis | methods | model | modelling | models | multi-scale | multi-scale computational modelling | multi-step | multimodal | new battery chemistries | new chemistry | operando | optimisation | optimisation software | orchestration software | organic | platform | power performance | prediction process | prediction processes | predictive | predictive hybrid physics | predictive modelling | proactive | proactive self-healing | prototype | prototyping | R&I | rapid-prototyping | remote | remote data access | reproducibility | robotic | robotic system | scale-bridging | simulation | simulations | software | software-agnostic | SoX | SoX estimation | SoX model | SoX models | standard synthesis | state-of-the-art | state-of-the-art collaborative environment | sustainability | Sustainable | synthesis | technique | techniques | tools | Towards a competitive European industrial battery value chain for stationary applications and e-mobility | ultra-high performance | ultra-high performances | virtual design
Year: 2022
Type of action: RIA
Expected EU contribution per project: 20M€
Deadline: 6/9/2022
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