Ultra-light and heavily loaded

15. August 2023

Hydrogen as energy storage of the future. Copyright: malp – adobe.stock.com

Hereon researchers from the Helmholtz Research Field Information develop new light metal alloy with enormous storage capacity for hydrogen. (Source: Helmholtz-Zentrum Hereon – Press releases)

Green hydrogen is indispensable for the energy transition. However, it must be sustainably storable so that mobility and industry can use it. The material used for hydrogen storage is often a compound of various metals – they absorb hydrogen and release it again when needed. However, common metal compounds – or better alloys – have the disadvantage of the high material’s weight, which minimize the system hydrogen storage capacity.

Researchers at the Hereon Institute of Hydrogen Technology have now developed a new family of alloys of titanium and magnesium that can store over 30 percent more hydrogen at room temperature than some of the most commonly utilized materials for hydrogen storage purposes, e.g., TiFe (titanium–iron) alloys. In addition, it is ultra-light: at 2.83 grams per cubic centimetre, it is only barely one gram heavier than pure magnesium – the lightest utility material in the world.

The newly developed compound belongs to the so-called compositionally complex alloys (CCAs). The properties of these metal compounds can be adjusted depending on the composition of the material. The Hereon researchers used computational and experimental tools to investigate known CCAs, which are very light and can already store hydrogen. In doing so, they tested different compositions of the materials and thus managed to develop several ultra-light CCA alloys that have some of the largest hydrogen storage capacities described in literature. This initial breakthrough forms the basis for the development of further ultra-light compounds. They are the premise for future hydrogen storage facilities and thus a sustainable and environmentally friendly energy supply.

Hereon/M. Grünwald, 17.07.2023

The original press release can be found at:

Ultra-light and heavily loaded

The original publication can be found at:

Shang, Y. et. al. Ultra-lightweight compositionally complex alloys with large ambient-temperature hydrogen storage capacity (2023). Materials Today. https://doi.org/10.1016/j.mattod.2023.06.012

Localization in the Helmholtz Research Field Information:

Helmholtz Research Field Information, Programm 3: Materials Systems Engineering, Topic 4: Scale-Bridging Designed Materials: From Fundamentals to Systems

Contact:

Dr. Claudio Pistidda
Institute of Hydrogen Technology
Helmholtz-Zentrum Hereon
Phone: +49 4152 87-2644
E-Mail: claudio.pistidda@hereon.de

Contact for this Press Release:

Martina Grünwald
Press Officer
Helmholtz-Zentrum Hereon
Phone: +49 4152 87-1784
E-Mail: martina.gruenwald@hereon.de