Login / Signup

The anomalous effect of electric field on friction for microscale structural superlubric graphite/Au contact.

Yelingyi WangJin WangTielin WuWeipeng ChenDeli PengZhanghui WuMing MaQuanshui Zheng
Published in: National science review (2024)
The current-carrying friction characteristics are crucial for the performance of a sliding electrical contact, which plays critical roles in numerous electrical machines and devices. However, these characteristics are influenced by multiple factors such as material surface quality, chemical reactions, and atmospheric environment, leading to a challenge for researchers to comprehensively consider these impacts. Structural superlubricity (SSL), a state of nearly zero friction and no wear between contact solid surfaces, provides an ideal experimental system for these studies. Here, with microscale graphite flakes on atomic-flattened Au surface under applied voltages, we observed two opposite friction phenomena, depending only on whether the edge of graphite flake was in contact with the Au substrate. When in contact the friction force would increase with an increasing voltage, otherwise, the friction force would decrease. Notably, when the voltage was turned off, the friction force quickly recovered to its original level, indicating the absence of wear. Through atmosphere control and molecular dynamics simulations, we revealed the mechanism to be the different roles played by the water molecules confined at the interface or adsorbed near the edges. Our experimental results demonstrate the remarkable tunable and robust frictional properties of SSL under an electrical field, providing an ideal system for the fundamental research of not only sliding electrical contacts, but also novel devices which demand tunable frictions.
Keyphrases
  • molecular dynamics simulations
  • sensitive detection
  • single molecule
  • reduced graphene oxide
  • single cell
  • escherichia coli
  • gold nanoparticles
  • quality improvement
  • amino acid
  • quantum dots
  • structural basis