Alena Vishina
Researcher at Department of Physics and Astronomy; Materials Theory
- E-mail:
- alena.vishina@physics.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
Researcher at Department of Physics and Astronomy; Materials Theory; Materials Theory
- E-mail:
- alena.vishina@physics.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postal address:
- Box 516
751 20 UPPSALA
More information is available to staff who log in.
Publications
Selection of publications
- Fe2C- and Mn-2(W/Mo)B-4-based rare-earth-free permanent magnets as a result of the high-throughput and data-mining search (2023)
- Magnetic and Structural Properties of the Fe5Si1-xGexB2 System (2022)
- Ab-initio study of the electronic structure and magnetic properties of Ce2Fe17 (2021)
- Data-driven design of a new class of rare-earth free permanent magnets (2021)
- High-throughput and data-mining approach to predict new rare-earth free permanent magnets (2020)
Recent publications
- Stable and metastable rare-earth-free permanent magnets from a database of predicted crystal structures (2023)
- Fe2C- and Mn-2(W/Mo)B-4-based rare-earth-free permanent magnets as a result of the high-throughput and data-mining search (2023)
- Magnetic and Structural Properties of the Fe5Si1-xGexB2 System (2022)
- Revealing the Magnetic Structure and Properties of Mn(Co,Ge)2 (2022)
- Ab-initio study of the electronic structure and magnetic properties of Ce2Fe17 (2021)
All publications
Articles
- Stable and metastable rare-earth-free permanent magnets from a database of predicted crystal structures (2023)
- Fe2C- and Mn-2(W/Mo)B-4-based rare-earth-free permanent magnets as a result of the high-throughput and data-mining search (2023)
- Magnetic and Structural Properties of the Fe5Si1-xGexB2 System (2022)
- Revealing the Magnetic Structure and Properties of Mn(Co,Ge)2 (2022)
- Ab-initio study of the electronic structure and magnetic properties of Ce2Fe17 (2021)
- Data-driven design of a new class of rare-earth free permanent magnets (2021)
- High-throughput and data-mining approach to predict new rare-earth free permanent magnets (2020)