The technology succeeds in making visible information on the atomic-scale 3D structure of amorphous carbon, based on measured X-ray scattering data. By making available detailed information on the ...

A new review highlights how disordered nanomaterials outperform crystals in solar-powered hydrogen production, CO? reduction, ...

Researchers from China Three Gorges University and Capital Normal University have published a comprehensive review highlighting the transformative potential of amorphous nanomaterials in ...

Carbon can also be arranged in flat sheets that are repeated to create the gleaming grey graphite that is used to produce pencils. Precious diamonds can be created when carbon atoms arrange themselves ...

A new palladium-loaded amorphous InGaZnOx (a-IGZO) catalyst achieved over 91% selectivity when converting carbon dioxide to ...

Photocatalysis, a technology that converts solar energy into chemical reactions, holds immense promise for addressing energy shortages and ...

A recent study in Nature Communications explored nanoporous amorphous carbon nanopillars, produced using an innovative method that combines self-assembled polymeric carbon precursors with nanoimprint ...

Amorphous carbon, along with the heteroatoms of nitrogen, contributes to the occurrence of pseudocapacitance," Evlashin said. More information: ...

User of SHMFF reveals the structure-property relationship of two-dimensional amorphous carbon Peer-Reviewed Publication. Hefei Institutes of Physical Science, Chinese Academy of Sciences ...

The X-ray Laboratory of Rigaku Corporation, a Rigaku Holdings Group company and a global solution partner for X-ray analysis (headquarters: Akishima, Tokyo; president and CEO: Jun Kawakami; “Rigaku”)?