Researchers at Tohoku University have developed a new technique to identify the initiation sites of a destructive process called pitting corrosion, which occurs when aluminum (Al) alloys are exposed ...

Crystal structures underpin the physical properties of materials, while intermetallic compounds—characterised by well‐defined stoichiometries and ordered arrangements of metallic elements—offer a rich ...

The upper half part illustrates electronic properties induced by metallic bonding and covalence in semimetal-platinum based intermetallic compounds. In the bottom half part, the categories and ...

Intermetallic compounds exhibit a remarkable diversity of electronic properties that arise from the intricate interplay of their constituent elements. The electronic structure of these materials – ...

Hydrogen, a clean fuel, is incredibly dense in energy -- three times more than diesel or gasoline. Its ability to power a sustainable future has been hindered by a lack of high performing catalysts.

The insights into the formation of various phases, including intermetallic compounds, at the interface between nickel (Ni) and tungsten (W) can lead to the development of advanced high-temperature Ni- ...

Researchers from the Tokyo Institute of Technology have unveiled the formation mechanisms of various phases, including intermetallic compounds (IMCs), within nickel–tungsten (Ni–W) alloys. Their ...

Hydrogen has the highest energy density (120 MJ/kg) of all known substances, approximately three times more than diesel or gasoline, meaning it could play a pivotal role in sustainable energy systems.