A team of physicists has experimentally uncovered what electrons do during quantum tunneling, revealing a surprising internal ...

Researchers investigating atomic-scale phenomena impacting next-generation electronic and quantum devices have captured the ...

A team of researchers led by the California NanoSystems Institute at UCLA has discovered a powerful new way to combine magnets with semiconductors—the materials that form the core of computers, ...

Plants, with their unique immune systems, sometimes launch 'autoimmune responses' by mistakenly identifying their own protein ...

Using their novel approach, ULA-SNOM, the researchers managed to reduce the movement of the scanning tip to an incredibly tiny level. In this method, the tip oscillates with an amplitude of only 0.5 ...

To separate geometry from chemistry, we converted snapshots from the microscope into a computer model using a 3D Voronoi network – a pattern that mimics the walls between bubbles in a foam. Think of ...

In this article a concept of the fully, on-a-chip, integrated MEMS electron microscope and high vacuum MEMS micropump is discussed. The device is formed as a multilayer sandwich of anodically bonded ...

Radiation damage remains the principal limitation in achieving higher resolution in cryo-electron microscopy (cryo-EM), ...

Due to the lack of objectivity of electron microscope focusing in traditional manual focusing, resulting in inaccurate image focusing, this paper proposes a high-precision focusing method for electron ...

For analytical electron microscopy investigations, either left- or right-handed nanohelices were sonicated off of wafer pieces into purified water and deposited via drop-casting onto the amorphous ...

Scanning transmission electron microscopy (STEM) has become an essential tool for investigating materials, providing detailed characterization at nano and atomic scales. By combining subangstrom ...