An international research team involving scientists from the University of Vienna, the Faculty of Physics of the University of Warsaw and University of Edinburgh has described the process of growing ...
Researchers have developed a new AI model that predicts dendritic growth in thin films, helping optimize thin-film growth processes. Thin films are grown by depositing tiny layers of materials onto a ...
For many years, in-situ observations of dynamic processes in the electron microscope have been performed. This process began just shortly after the first electron microscopes were invented. Over the ...
An international research team involving scientists from the University of Vienna, the Faculty of Physics of the University of Warsaw and Univeristy of Edinburgh has described the process of growing ...
They published their work on Sep. 12 in Energy Material Advances. "The great electrochemical phase-field simulation efforts devoted to exploring the dendrite growth mechanism under the temperature ...
Tiny metal spikes can short-circuit a solid-state battery. Researchers at MIT found a way to avoid them.
Polymer electrolytes in lithium-metal batteries can still host dendrite growth deep inside, revealing a hidden failure mode and guiding safer, longer-lasting designs. (Nanowerk News) Lithium-metal ...
Thin film devices, composed of layers of materials a few nanometers thick, play an important role in various technologies, from semiconductors to communication technologies. For instance, graphene and ...
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