Characterization of microstructure and surface oxide of Ti1.2Fe hydrogen storage alloy

In this study, we investigated the microstructures, hydrogen absorption kinetics, and oxide layers of TiFe and Ti1.2Fe hydrogen storage alloys. Whereas the TiFe alloy has a single phase, the Ti1.2Fe alloy is composed of three phases: TiFe, Ti2Fe, and Ti4Fe. Under no thermal activation process, the T...

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Bibliographic Details
Published in:International journal of hydrogen energy 2021-04, Vol.46 (24), p.13082-13087
Main Authors: Park, Ki Beom, Na, Tae-Wook, Kim, Young Do, Park, Jae-Young, Kang, Jang-Won, Kang, Hyun-Su, Park, Kwangsuk, Park, Hyung-Ki
Format: Article
Language:English
Subjects:
Hydrogen absorption kinetics
Hydrogen storage alloy
Surface oxide
TiFe alloy
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Summary:In this study, we investigated the microstructures, hydrogen absorption kinetics, and oxide layers of TiFe and Ti1.2Fe hydrogen storage alloys. Whereas the TiFe alloy has a single phase, the Ti1.2Fe alloy is composed of three phases: TiFe, Ti2Fe, and Ti4Fe. Under no thermal activation process, the TiFe alloy does not absorb hydrogen, though the Ti1.2Fe alloy starts to absorb hydrogen after 4 min of incubation time. From the XPS results, it is revealed that the Ti concentration in the oxide layer on the Ti4Fe phase is higher than that on the TiFe phase, indicating that the Ti concentration in the oxide layer would be important in improving hydrogen absorption kinetics. Based on these results, the hydrogen absorption kinetics could be improved by adjusting composition, enabling the formation of a Ti-rich oxide layer. [Display omitted] •Hydrogen absorption kinetics and oxide layers of Ti1.2Fe alloys were investigated.•The TiFe alloy had a single phase, while Ti1.2Fe alloy was composed of three phases.•Only the Ti1.2Fe alloy could absorb hydrogen without a thermal activation process.•The hydrogen absorption kinetic was improved by the Ti-rich oxide layer.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2021.01.105