Scanning tunneling microscopes capture images of materials with atomic precision and can be used to manipulate individual molecules or atoms. Researchers have been using the instruments for many years ...

A new technical paper titled “Externally-triggerable optical pump-probe scanning tunneling microscopy with a time resolution of tens-picosecond” was published by researchers at University of Tsukuba ...

This news release is available in German. Jülich, 27 November 2014 - The resolution of scanning tunnelling microscopes can be improved dramatically by attaching small molecules or atoms to their tip.

This is not an artist’s rendering, nor a physics simulation. This device held together with hardware-store MDF and eyebolts and connected to a breadboard, is taking pictures of actual atomic ...

Recent advances in atomic-scale imaging and manipulation are forging new paths in the exploration of quantum phenomena, with atomic spin dynamics and scanning tunnelling microscopy (STM) lying at the ...

An international research team has succeeded in controlling the chirality of individual molecules through structural isomerization. The team also succeeded in synthesizing highly reactive diradicals ...

(Nanowerk News) Semiconductors are foundational components of modern energy, communication, and myriad other technologies. Research on tailoring the underlying nanostructure of semiconductors for ...

(TNS) — An ultra-high vacuum scanning tunnel microscope — or UHV STM — has been donated to Miami University through an educational partnership agreement with the Materials and Manufacturing Division ...

When Nate Price first heard Miami University would soon receive an ultra-high vacuum scanning tunneling microscope (UHV STM), he immediately saw the possibilities. Price, entering his second year as a ...

An ultra-high vacuum scanning tunnel microscope — or UHV STM — has been donated to Miami University through an educational partnership agreement with the Materials and Manufacturing Division of the ...

1. An international research team led by NIMS, the Osaka University Graduate School of Science and the Kanazawa University Nano Life Science Institute (WPI-NanoLSI) has succeeded for the first time in ...