Researchers investigate batteries without critical raw materials

Batteries without critical raw materials
With operando techniques, it is possible to observe how solvated ions embed themselves in batterie electrodes. This might help to develop alternative batteries. Credit: G. A. Ferrero

The market for rechargeable batteries is growing rapidly, but the necessary raw materials are limited. Sodium-ion batteries, for example, could offer an alternative. A joint research group from HZB and Humboldt-Universität zu Berlin has investigated new combinations of electrolyte solutions and electrode materials for this purpose.

"In contrast to , which are based on the storage of lithium ions in the positive and negative electrodes of the battery, we are working on the one hand with , as they also occur in cheap table salt. On the other hand, we store the sodium ions together with their solvate shell, i.e. solvent molecules from the electrolyte solution that separate the two electrodes. This makes it possible to realize completely new storage reactions," explains Prof. Philipp Adelhelm, who heads the research group "operando battery analysis," which was jointly founded by Humboldt University and Helmholtz-Zentrum Berlin in 2020.

The storage of ions when accompanied by their solvation shell in a is referred to as co-intercalation. Up to this point, this concept was limited to the negative of the sodium-ion battery. Now the researchers around Adelhelm have succeeded in extending the concept to the positive electrode of the battery.

Dr. Guillermo A. Ferrero, first author of the publication, explains: "With titanium disulfide and graphite, we have for the first time combined two that absorb and release the same solvent during charging and discharging of the battery."

The scientists could observe changes in the material during charging and discharging via operando measurements performed in the X-Ray Core Lab at HZB on the LIMAX 160. This helped them to assign the co-intercalation mechanism inside the battery. They could then use this new knowledge to realize a with two electrodes that both rely on reversible co-intercalation of solvent molecules.

"We are still in the early stages of understanding the implications of the co-intercalation batteries. But there are a few possible advantages we can envision," Dr. Katherine A. Mazzio, HZB, explains. "The process of co-intercalation could improve upon efficiency by enabling better low temperature performance. It could also be utilized to improve upon alternative cell concepts such as using multi-valent ions instead of Li+ or Na+ storage that are particularly sensitive to the solvation shell."

The research was published in Advanced Energy Materials.

More information: Guillermo Alvarez Ferrero et al, Co‐Intercalation Batteries (CoIBs): Role of TiS 2 as Electrode for Storing Solvated Na Ions, Advanced Energy Materials (2022). DOI: 10.1002/aenm.202202377

Journal information: Advanced Energy Materials
Citation: Researchers investigate batteries without critical raw materials (2022, October 27) retrieved 18 April 2024 from
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