A research team from National Taiwan University has developed a new electron microscopy technique that enables sensitive atomic number (Z) measurements of samples. The technique, named atomic number ...

Artist's rendition of a LFM tip coming close to the side of a molecule, where it is sensitive to the terminal H-atoms. (Image: A. J. Weymouth) Hydrogen atoms situated at the edges of molecules affect ...

Using conventional X-rays and lasers to detect the atomic state of hydrogen is challenging, given its small size. A group of researchers may have overcome this barrier by unveiling a new visualization ...

Using a scanning tunneling microscope equipped with a femtosecond terahertz laser, scientists have exploited the quantum properties of a two-atom hydrogen molecule to observe changes in the ...

The new technique overcomes the challenge of detecting atomic state hydrogen, the smallest atom, through conventional means. This method allows real-time observation of hydrogen flow in metals with ...

Forget megapixel count. A device being created by the Department of Energy will be able to show things smaller than hydrogen atoms. Photos: Nanotech visions Michael Kanellos is editor at large at CNET ...

Why hydrogen causes steels to become brittle and crack is the great conundrum of engineers and researchers looking to develop large-scale transport and storage solutions for the hydrogen age – an era ...

New electron microscopy technique enables precise atomic number mapping, revealing nanoscale hydrogen storage and defect dynamics in palladium. (Nanowerk News) A research team from National Taiwan ...

(a) Comparison of the spatial and time resolutions between the conventional hydrogen detection techniques and the hydrogen visualization technique developed in this study. (b) A schematic of the ...