Home > News >

German researchers examine how proximity affects the resistance of graphene

wallpapers News 2020-10-27

A research team from the University of Göttingen, together with the Chemnitz University of Technology and the Physikalisch-Technische Bundesanstalt Braunschweig, has investigated the influence of the crystal on which graphene is grown, on the electrical resistance of the resulting material.

Contrary to previous assumptions, the new results show that the process known as the ‘proximity effect’ varies considerably at a nanometre scale. To determine the electrical resistance of graphene at the smallest scale possible, the physicists used a scanning tunneling microscope (STM).

The STM approach can make atomic structures visible by scanning the surface with a fine metal tip. The team also used the tip of the scanning tunneling microscope to measure the voltage drop and thus the electrical resistance of the tiny graphene sample.

Depending on the distance that they measured, the researchers determined very different values for the electrical resistance. They cite the proximity effect as the reason for this.

“The spatially varying interaction between graphene and the underlying crystal means that we measure different electrical resistances depending on the exact position,” explains Anna Sinterhauf, first author and doctoral student at the Faculty of Physics at the University of Göttingen.

At low temperatures of 8 Kelvin, which is around minus 265 degrees Centigrade, the team found variations in local resistance of up to 270 percent.

“This result suggests that the electrical resistance of graphene layers epitaxially grown on a crystal surface cannot simply be worked out from an average taken from values measured at a larger scale,” explains Dr Martin Wenderoth, head of the working group. The team assumes that the proximity effect might also play an important role for other two-dimensional materials.

MIS-ASIA is an online content marketing platform that has a large number of visitors worldwide. It is considered to be the leading IT, mechanical, chemical, and nanomaterial information distributor in the Asia-Pacific region. The MIS-ASIA website provides high-quality articles and news on digital information technology, mechanical technology, nanotechnology, biology and science for scientists, engineers and industry experts, machinery suppliers and buyers, chemical suppliers and laboratories. If you need advertising and posting service, or you need to start sponsorship, please contact us.