Karlsruhe Institute Of Technology 1

1. Kinetic analysis of tritium release from irradiated biphasic lithium ceramics Li₄SiO₄-Li₂TiO₃ with different phase ratios
2. High-dose neutron irradiation of beryllium and titanium beryllide: Summary and outlook
3. High-dose neutron irradiation of beryllium and titanium beryllide: Summary and outlook
4. High-dose neutron irradiation of beryllium and titanium beryllide: Summary and outlook
5. Studies of irradiated two-phase lithium ceramics Li₄SiO₄/Li₂TiO₃ by thermal desorption spectroscopy
6. Temperature dependence of the long-term annealing behavior of neutron irradiated diodes from 8-inch p-type silicon wafers
7. Beryllium intermetallics: Industrial experience on development and manufacture
8. Lanthanum plumbide as a new neutron multiplier material
9. Microstructure and high-temperature mechanical performance of industrial-scale titanium and chromium beryllides for fusion applications
10. Comparative analysis of gas release from biphasic lithium ceramics pebble beds of various pebbles sizes and content under neutron irradiation conditions
11. Corrigendum to “Comparative analysis of gas release from biphasic lithium ceramics pebble beds of various pebbles sizes and content under neutron irradiation conditions” [Nucl. Mater. Energy 38 (2024) 101583] (Nuclear Materials and Energy (2024) 38, (S235217912400005X), (10.1016/j.nme.2024.101583))
12. Estimation of tritium transfer parameters in biphasic lithium ceramic based on the results of reactor irradiation experiments
13. Influence of various gases and water vapors on the processes of tritium release from two-phase lithium ceramics
14. Rig design development for in situ tritium release studies of EU reference ceramic breeders (ACB-TREND)
15. Development and characterization of advanced neutron multiplier materials
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