What's New
- High-Temperature Superconductivity for Resilient Electric Grids
- Annual Report 2023: IEA Technology Collaboration Programme on High-Temperature Superconductivity
- HTS Readiness Map for Industrial Applications
- Annual Report 2022: IEA Technology Collaboration Programme on High-Temperature Superconductivity
- HTS Wire Enabling Market Disruption
- HTS Readiness Map for Energy Delivery Systems, Manuscript published at the Applied Superconductivity Conference 2022
- High Temperature Superconductivity Application Readiness Map for Energy Delivery (July 2021)
- Summary of High Temperature Superconductivity Readiness Map
- Collaboration with TCP Wind
- Energy Efficiency, Resilient Electric Systems, and Transportation Applications Using High-Temperature Superconductivity
- Visualize the World’s HTS Projects
- Collaboration with other IEA TCPs
- Learn how the HTS TCP is fostering the young generation of scientists
- Interested in Membership?
Events
- Fall HTS TCP ExCo Meeting – 29-31 October 2024, Karlsruhe, Germany
- IEEE CSC Events Calendar
Historical Newsletters
- HTS Newsletter: Summer 2019
- HTS Newsletter: Fall 2017
- HTS Newsletter: Winter 2017
- HTS Newsletter: Fall 2016
Links
Superconductivity
Superconductivity is a phenomenon that causes certain materials, at low temperatures, to lose all resistance to the flow of electricity. The lack of resistance enables a range of innovative technology applications. Devices based on superconductivity have been available in certain niche markets for decades. In particular, superconducting magnets are used in many applications requiring powerful electromagnets, such as in magnetic resonance imaging (MRI) machines.
Projects
HTS based projects have been energized across the world to demonstrate their applicability in modernizing the electric grid.
