SUPR
Project storage for Computational design of novel functional materials for sustainable technologies
Dnr:

NAISS 2023/6-358

Type:

NAISS Medium Storage

Principal Investigator:

Johanna Rosen

Affiliation:

Linköpings universitet

Start Date:

2024-01-01

End Date:

2025-01-01

Primary Classification:

10304: Condensed Matter Physics

Secondary Classification:

20501: Ceramics

Tertiary Classification:

20506: Metallurgy and Metallic Materials

Allocation

Abstract

We apply for a prolonged project storage (present storage NAISS 2023/2-1) in the Medium Storage category since our Large Storage was denied. This to ensure upcoming usage of our granted NAISS Large Compute project and to promote successful theoretical research in the Materials Design division at Linköping University with more than 10 theoretical researchers active in computation. We have consistently, over a number of years, proven that we use allocated resources in an efficient and productive manner resulting in a large number of scientific publications and recognition in the form of prestigious grants from VR, ERC, SSF, KAW, Göran Gustafson, and WISE. Project storage enables use of use state-of-the-art theory and supercomputer resources, hand in hand with experimental synthesis and characterization, to resolve scientific problems and conduct research of advanced functional materials for green energy and emerging technologies.