Study of hydrogen storage capacity of Ti induced by ion irradiation

“…104,105 Sinduja et al irradiated Bi 2 Te 3 thin films with 300 and 700 keV Cu + ion. 99 The energetic ions will initiate the collision cascades in the target material and generate the large number of point defects such as vacancies and interstitials along with the implanted atoms. Apart from the implanted atoms, the defects (vacancies and interstitials) also modify and improve the structural and It should be noted that, different from ion implantation/ irradiation by inert element ions, which only create defects, the ion implantation of metallic or nonmetallic ions creates both doping effect and defect effect.…”

“…Ion irradiation is an effective surface modification technique for hydrogen storage materials and has been used to promote hydrogen uptake in materials because the vacancies induced in the process improve the reactivity of hydrogen during the hydrogenation of metals. Irradiation induced vacancies can effectively enhance hydrogen uptake. , Alejandra et al investigated the effect of H + ion irradiation on the hydrogen absorption properties of Ti . Ti plates were irradiated by hydrogen ions at 700 and 1500 keV at room temperature and annealed in a hydrogen atmosphere at 300, 450, and 600 °C to study the hydrogen uptake in Ti.…”

“…97,98 Alejandra et al investigated the effect of H + ion irradiation on the hydrogen absorption properties of Ti. 99 Ti plates were irradiated by hydrogen ions at 700 and 1500 keV at room temperature and annealed in a hydrogen atmosphere at 300, 450, and 600 °C to study the hydrogen uptake in Ti. Elastic recoil detection analysis (Figure 15) showed improved hydrogen uptake relative to unirradiated samples.…”

“…Elastic recoil detection analysis (ERDA) spectra of the samples irradiated with H + ions and hydrogenated at (a) 300 °C, (b) 450 °C, and (c) 600 °C. Reprinted with permission from ref . Copyright 2017 Elsevier.…”

“…In addition, elemental doping and irradiation damage by ion beams have been heavily investigated in improving the properties of thermoelectric materials. , Sinduja et al irradiated Bi 2 Te 3 thin films with 300 and 700 keV Cu + ion . The energetic ions will initiate the collision cascades in the target material and generate the large number of point defects such as vacancies and interstitials along with the implanted atoms.…”

Recent Progress in the Application of Ion Beam Technology in the Modification and Fabrication of Nanostructured Energy Materials

“…104,105 Sinduja et al irradiated Bi 2 Te 3 thin films with 300 and 700 keV Cu + ion. 99 The energetic ions will initiate the collision cascades in the target material and generate the large number of point defects such as vacancies and interstitials along with the implanted atoms. Apart from the implanted atoms, the defects (vacancies and interstitials) also modify and improve the structural and It should be noted that, different from ion implantation/ irradiation by inert element ions, which only create defects, the ion implantation of metallic or nonmetallic ions creates both doping effect and defect effect.…”

“…Ion irradiation is an effective surface modification technique for hydrogen storage materials and has been used to promote hydrogen uptake in materials because the vacancies induced in the process improve the reactivity of hydrogen during the hydrogenation of metals. Irradiation induced vacancies can effectively enhance hydrogen uptake. , Alejandra et al investigated the effect of H + ion irradiation on the hydrogen absorption properties of Ti . Ti plates were irradiated by hydrogen ions at 700 and 1500 keV at room temperature and annealed in a hydrogen atmosphere at 300, 450, and 600 °C to study the hydrogen uptake in Ti.…”

“…97,98 Alejandra et al investigated the effect of H + ion irradiation on the hydrogen absorption properties of Ti. 99 Ti plates were irradiated by hydrogen ions at 700 and 1500 keV at room temperature and annealed in a hydrogen atmosphere at 300, 450, and 600 °C to study the hydrogen uptake in Ti. Elastic recoil detection analysis (Figure 15) showed improved hydrogen uptake relative to unirradiated samples.…”

“…Elastic recoil detection analysis (ERDA) spectra of the samples irradiated with H + ions and hydrogenated at (a) 300 °C, (b) 450 °C, and (c) 600 °C. Reprinted with permission from ref . Copyright 2017 Elsevier.…”

“…In addition, elemental doping and irradiation damage by ion beams have been heavily investigated in improving the properties of thermoelectric materials. , Sinduja et al irradiated Bi 2 Te 3 thin films with 300 and 700 keV Cu + ion . The energetic ions will initiate the collision cascades in the target material and generate the large number of point defects such as vacancies and interstitials along with the implanted atoms.…”

Recent Progress in the Application of Ion Beam Technology in the Modification and Fabrication of Nanostructured Energy Materials

Hydriding of titanium: Recent trends and perspectives in advanced characterization and multiscale modeling

Investigation of the interaction between hydrogen and irradiation defects in titanium by using positron annihilation spectroscopy