Superior radiation tolerance via reversible disordering–ordering transition of coherent superlattices
Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …
next-generation fission and future fusion energy. To date, however, even the most promising …
Superior radiation tolerance via reversible disordering-ordering transition of coherent superlattices
J Du, S Jiang, P Cao, C Xu, Y Wu, H Chen… - Nature …, 2023 - ui.adsabs.harvard.edu
Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …
next-generation fission and future fusion energy. To date, however, even the most promising …
Superior radiation tolerance via reversible disordering-ordering transition of coherent superlattices
J Du, S Jiang, P Cao, C Xu, Y Wu, H Chen… - Nature …, 2023 - pubmed.ncbi.nlm.nih.gov
Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …
next-generation fission and future fusion energy. To date, however, even the most promising …
Superior radiation tolerance via reversible disordering-ordering transition of coherent superlattices.
J Du, S Jiang, P Cao, C Xu, Y Wu, H Chen, E Fu… - Nature …, 2022 - europepmc.org
Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …
next-generation fission and future fusion energy. To date, however, even the most promising …