High throughput computational mass screening to identify cost-effective, sustainable, next-generation magnet materials for net zero applications
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High throughput computational mass screening to identify cost-effective, sustainable, next-generation magnet materials for net zero applications
CoPED ID
13ba27e6-47d7-4a00-bfb9-4e9aa92a1f78
Status
Active
Funders
Value
£98,003
Start Date
Nov. 1, 2022
End Date
March 30, 2023
Description
Better magnets, with lower costs and higher performance, would lead to significant enhancements of key net-zero technologies such as wind turbines and electric cars, leading to accelerated adoption and faster progress towards net-zero targets. This project will demonstrate the ability to identify new high-strength magnet materials with lower costs and improved sustainability. New compositions would offer significant commercial advantages and strengthen existing efforts to develop new opportunities to diversify value-chains.
| Materials Nexus Limited | LEAD_ORG |
| Materials Nexus Limited | PARTICIPANT_ORG |
| Jon Pillow | PM_PER |
Subjects by relevance
- Automotive engineering
Extracted key phrases
- High throughput computational mass screening
- New high
- Generation magnet material
- Strength magnet material
- High performance
- Low cost
- Well magnet
- Key net
- Zero technology
- New composition
- New opportunity
- Significant commercial advantage
- Significant enhancement