ME PhD Student, Xiang Wang, was selected to present his research at the 2021 Virtual Materials Research Society Spring Meeting and
Exhibit, which took place in April. The abstract of his presentation was also included as a Scientific Highlight for the MRS Meeting Scene newsletter detailing the conference events. Wang is a student of Professor Scott Mao.
Reposted from MRS. Click here to see the original story.
Nanostructures are commonly used in micro-electromechanical systems (MEMS) and nano-electromechanical systems (NEMS). For this, atomic friction between nanoscale components should be considered. “Understanding atomic friction between nanoscale contact
is very important to control the surface value and extend their service life,” says Xiang Wang.
In this talk, Wang describes their proposed approach to studying the atomic friction process. Here, they designed a set-up consisting of a substrate and mobile tip, allowing for nanoscale contact between mechanical tungsten asperities. Controlled motion
was then performed under high-resolution transmission electron microscopy (HRTEM), and also coupled with molecular dynamics simulations. Such an approach holds multiple advantages – high atomic scale resolution and in particular, real-time observation
which is difficult to be achieved by conventional techniques like atomic force microscopy (AFM).
Using this approach, they discovered that friction between single-asperity nanocontacts displayed a typical stick-slip behavior. Interestingly, they had observed that in one period, there occurs two slipping events, with slipping route along two different
 directions. In addition, they had found that strain distribution on the interface during friction is inhomogeneous. During friction, atoms accumulate strain energy for subsequent slipping, but only some elastic strain is being released after
the slip, indicating an asynchronous evolution of the accumulation and release of strain energy. This study highlights a promising way of using in situ TEM to gain mechanistic insights into atomic friction.
Posted by Materials Research Society at 10:23 AM in MRS, Scientific Highlights, Spring 2021. Written by Jessalyn Hui Ying Low.
Contact: Meagan Lenze