Pinpointing hydrogen isotopes in titanium hydride nanofilms

Researchers from Institute of Industrial Science, The University of Tokyo have combined techniques to determine the location of hydrogen in titanium hydride nanofilms
Credit: Institute of Industrial Science, The University of Tokyo

Although it is the smallest and lightest atom, hydrogen can have a big impact by infiltrating other materials and affecting their properties, such as superconductivity and metal-insulator-transitions. Now, researchers from Japan have focused on finding an easy way to locate it in nanofilms.

In a study published recently in Nature Communications, researchers from the Institute of Industrial Science, The University of Tokyo have reported a method for determining the location of hydrogen in nanofilms.

Because they are very small, hydrogen atoms can easily migrate into the framework of other materials. Titanium absorbs hydrogen to give titanium hydrides, making it useful for applications such as hydrogen storage.

Understanding how many hydrogen atoms are present and where exactly they are can provide the key to tuning the properties of the material. However, detecting hydrogen with commonly used techniques—such as electron probes and X-rays—is challenging because of their lack of sensitivity for the small atoms.

The researchers combined two techniques—nuclear reaction analysis (NRA) and ion channeling—to generate two-dimensional angular mapping of titanium hydride nanofilms.

“We took a close look at a TiH1.47 nanofilm,” explains lead author of the study Takahiro Ozawa. “Understanding nanofilms is useful as many hydrogen-related applications involve surface and subsurface reactions. We were able to precisely locate both the hydrogen and deuterium atoms in the nanofilm.”

All the deuterium atoms—an isotope of hydrogen with double its mass—were at locations in the titanium crystal known as tetrahedral positions. However, 11% of the hydrogen atoms present were at sites described as octahedral. Calculations showed that having this variety in the sites lowered the symmetry, which made the lattice more stable.

Because the deuterium atoms didn’t occupy octahedral sites because of nuclear quantum effects, controlling the ratio of hydrogen isotopes could be used as a means of tuning the stability and properties of nanofilms based on the intended application.

“Being able to differentiate between the two isotopes in the hydride revealed an opportunity for control,” says Katsuyuki Fukutani, senior author. “This will clearly have important practical applications for producing particular hydrogen-induced phenomena.”

The enhanced understanding of titanium hydride nanofilms is also expected to contribute to hydrogen storage, solid electrolyte, and heterogeneous catalysis applications as we move toward practical and safe green solutions for the future.

The article, “Isotope-dependent site occupation of hydrogen in epitaxial titanium

hydride nanofilms,” was published in Nature Communications at DOI: 10.1038/s41467-024-53838-6.

 

About Institute of Industrial Science, The University of Tokyo

The Institute of Industrial Science, The University of Tokyo (UTokyo-IIS) is one of the largest university-attached research institutes in Japan. UTokyo-IIS is comprised of over 120 research laboratories—each headed by a faculty member—and has over 1,200 members (approximately 400 staff and 800 students) actively engaged in education and research. Its activities cover almost all areas of engineering. Since its foundation in 1949, UTokyo-IIS has worked to bridge the huge gaps that exist between academic disciplines and real-world applications.

Journal: Nature Communications
DOI: 10.1038/s41467-024-53838-6
Article Title: Isotope-dependent site occupation of hydrogen in epitaxial titanium hydride nanofilms
Article Publication Date: 14-Nov-2024

Media Contact

Takahiro Ozawa
Institute of Industrial Science, The University of Tokyo
t-ozawa@iis.u-tokyo.ac.jp
Office: 81-354-526-132

Media Contact

Takahiro Ozawa
Institute of Industrial Science, The University of Tokyo

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