Innovative nanoporous carbon materials for energy storage applications
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Innovative nanoporous carbon materials for energy storage applications
CoPED ID
74e4d6db-0f37-4c26-89da-8627063c77ac
Status
Closed
Value
£2,093,405
Start Date
Sept. 30, 2012
End Date
Dec. 31, 2015
Description
The project team MAST Carbon International, SLE, Johnson Matthey, Johnson Matthey Battery Systems (JMBS) and Bath University are developing a new form of carbon that will provide the basis for a range of new and enhanced electrical energy storage devices. The devices will have a significant impact on the introduction of hybrid electrical vehicles and renewable energy systems where improved energy storage will be critical to their future acceptability and commercial success.
MAST CARBON INTERNATIONAL LIMITED | LEAD_ORG |
UNIVERSITY OF BATH | PARTICIPANT_ORG |
JOHNSON MATTHEY PLC | PARTICIPANT_ORG |
JOHNSON MATTHEY BATTERY SYSTEMS | PARTICIPANT_ORG |
MAST CARBON INTERNATIONAL LIMITED | PARTICIPANT_ORG |
SHARP LABORATORIES OF EUROPE, LTD. | PARTICIPANT_ORG |
UNIVERSITY OF BATH | PARTICIPANT_ORG |
Steve Tennison | PM_PER |
Subjects by relevance
- Energy
- Renewable energy sources
- Warehousing
- Electrical devices
- Climate changes
- Accumulators
- Electric vehicles
Extracted key phrases
- Electrical energy storage device
- Energy storage application
- Innovative nanoporous carbon material
- Project team mast Carbon International
- Johnson Matthey Battery Systems
- Renewable energy system
- Hybrid electrical vehicle
- New form
- Bath University
- Significant impact
- SLE