Dielectric properties of WS2-coated multiwalled carbon nanotubes studied by energy-loss spectroscopic profiling

Abstract: We investigate experimentally the electronic properties of the coating for multiwalled carbon nanotubes covered in tungsten disulfide ͑WS 2 ͒ of various thicknesses. Coatings of thicknesses between 2 and 8 monolayers ͑ML͒ are analyzed using energy-loss spectroscopic profiling ͑ELSP͒, by studying the variations in the plasmon excitations across the coated nanotube, as a function of the coating thickness. We find a change in the ELSP for coatings above 5 ML thickness, which we interpret in terms of a change in i… Show more

“…In particular, Dr Vlad Stolojan at the University of Surrey has recently employed EELS to study the changes in the plasmon peak energy across the WS 2coated CNT as a function of coating thickness. Results showed that four monolayers of WS 2 are required in order that the coating approaches the WS 2 bulk dielectric state, for a WS 2 -coated MWCNT (Stolojan et al . 2004).…”

Novel nanoscale architectures: coated nanotubes and other nanowires

“…In particular, Dr Vlad Stolojan at the University of Surrey has recently employed EELS to study the changes in the plasmon peak energy across the WS 2coated CNT as a function of coating thickness. Results showed that four monolayers of WS 2 are required in order that the coating approaches the WS 2 bulk dielectric state, for a WS 2 -coated MWCNT (Stolojan et al . 2004).…”

Novel nanoscale architectures: coated nanotubes and other nanowires

“…It must be noted that here there is a physical limit on the thickness of the filler layer so that one can dielectrically define it as a layer with two surfaces, as opposed to a 'thick' interface between two media [38].…”

Energy loss spectroscopic profiling across linear interfaces: The example of amorphous carbon superlattices

Decorated (Coated) Carbon Nanotubes: (X/CNTs)