AbstractUsing a first-principles method, we present the effect of the alloying element Ti on the behaviors of He in vanadium. Away from Ti atom, He migrates from one tetrahedral site to another with a barrier of 0.06 eV. When He moves towards the Ti, its energy barrier increases to ∼0.19 eV. With the presence of Ti in vacancy vicinity, the binding energies of He to Hen−1-vacancy cluster decrease compared with that in pure vanadium, indicating that the alloying element Ti can diminish the binding of He with vacancy in vanadium. This confirms that the He retention in vanadium can be suppressed by doping Ti in experiments. All the interactions between a tetrahedral He and Hen−1-vacancym (n/m = 1, 2, 3, 4) cluster are attractive in the vicinity...
Ti-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expen...
We systematically investigated the influence of yttrium (Y) on the evolution behavior of helium (He)...
The very low swelling of V-Ti alloys under neutron irradiation is a poorly understood phenomenon. To...
AbstractUsing a first-principles method, we present the effect of the alloying element Ti on the beh...
AbstractThe behaviors of helium in vanadium including stability, diffusion, and its interaction with...
TiV alloy is an important candidate structural material of hydrogen storage and fusion reactor syste...
First principles calculations have been performed to energetically investigate the helium cluster nu...
International audienceIn this paper we investigate the energy landscape of vacancy clusters in the p...
In the present work, the behavior of He in the MAX phase Ti3AlC2 material is investigated using firs...
In the present work, the behavior of He in the MAX phase Ti3AlC2 material is investigated using firs...
The interaction between helium (He) atom and vacancy defect in tungsten (W) has been investigated by...
Ti3AlC2 known as representing material in MAX phases, has been suggested for next generation nuclear...
Helium effect of neutron irradiated vanadium alloys, containing titanium, has been studied using Dyn...
Helium effect of neutron irradiated vanadium alloys, containing titanium, has been studied using Dyn...
Using the first-principles method based on density functional theory, the effect of helium irradiati...
Ti-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expen...
We systematically investigated the influence of yttrium (Y) on the evolution behavior of helium (He)...
The very low swelling of V-Ti alloys under neutron irradiation is a poorly understood phenomenon. To...
AbstractUsing a first-principles method, we present the effect of the alloying element Ti on the beh...
AbstractThe behaviors of helium in vanadium including stability, diffusion, and its interaction with...
TiV alloy is an important candidate structural material of hydrogen storage and fusion reactor syste...
First principles calculations have been performed to energetically investigate the helium cluster nu...
International audienceIn this paper we investigate the energy landscape of vacancy clusters in the p...
In the present work, the behavior of He in the MAX phase Ti3AlC2 material is investigated using firs...
In the present work, the behavior of He in the MAX phase Ti3AlC2 material is investigated using firs...
The interaction between helium (He) atom and vacancy defect in tungsten (W) has been investigated by...
Ti3AlC2 known as representing material in MAX phases, has been suggested for next generation nuclear...
Helium effect of neutron irradiated vanadium alloys, containing titanium, has been studied using Dyn...
Helium effect of neutron irradiated vanadium alloys, containing titanium, has been studied using Dyn...
Using the first-principles method based on density functional theory, the effect of helium irradiati...
Ti-V-based body-centered cubic (BCC) alloys have potential for large-scale hydrogen storage if expen...
We systematically investigated the influence of yttrium (Y) on the evolution behavior of helium (He)...
The very low swelling of V-Ti alloys under neutron irradiation is a poorly understood phenomenon. To...