Inverted Charge Crystals for New High-performance Solid State Electrolytes
In-Charge aims to create a dataset for easier investigation and experimental testing of these materials in order to find better materials for high-capacity, high power batteries.
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In-Charge
Acronym: In-Charge
Duration: 01.09.2024–31.08.2026
Funding: 2 693 098 NOK
Project Owner: Vilnius University
Project Manager: Saulius Gražulis
Project Partners: Technical University of Denmark
Observers: Okinawa Institute of Science and Technology, Paul Scherrer Institut
Programme Administration
Ole Aune Ødegård
Adviser
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Project results
About In-Charge
Rapidly developing technologies like mobile phones, electric cars, and drones have the potential to contribute to the well-being of our countries, increase European security, and eventually replace fossil fuels if we could store energy for long enough in high-capacity batteries charged from renewable sources. The capacity of current batteries, however, is way below the threshold required for complete replacement of…