van der Waals Screening by Single-Layer Graphene and Molybdenum Disulfide
Abstract
A sharp tip of atomic force microscope is employed to probe van der Waals forces of a silicon oxide substrate with adhered graphene. Experimental results obtained in the range of distances from 3 to 20 nm indicate that single-, double-, and triple-layer graphenes screen the van der Waals forces of the substrate. Fluorination of graphene, which makes it electrically insulating, lifts the screening in the single-layer graphene. The van der Waals force from graphene determined per layer decreases with the number of layers. In addition, increased hole doping of graphene increases the force. Finally, we also demonstrate screening of the van der Waals forces of the silicon oxide substrate by single- and double-layer molybdenum disulfide- Text
- Journal contribution
- Biochemistry
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- Environmental Sciences not elsewhere classified
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- van der Waals force
- van der Waals forces
- van der Waals Screening
- 20 nm
- force microscope
- Molybdenum DisulfideA
- probe van der Waals forces
- layer decreases
- graphene increases
- hole doping
- silicon oxide substrate
- Experimental results
Similar works
This paper was published in FigShare.
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