Add to ORKGThis communication describes scanning tunnelling microscopy investigations of the electronic properties of single-walled carbon nanotubes (SWNTs). First, the unique relationship between the atomic structure and electronic properties of SWNTs is presented. Second, structural defects in nanotubes are addressed, and quantum size effects in SWNTs are discussed. Lastly, the effects of magnetic impurities on the low-energy properties of metallic SWNTs are discussed. Applications and prospects for future research directions are considered
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
This topical review summarizes scanning tunneling microscopy investigations of the electronic proper...
Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled...
Scanning tunneling microscopy, spectroscopy, and tight-binding calculations have been used to elucid...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
Single-wall carbon nanotubes (SWCNTs) have been synthesized and purified. Using a water colloid, SWC...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Abstract. This paper summarizes scanning probe microscopy investigations of the properties and manip...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
This topical review summarizes scanning tunneling microscopy investigations of the electronic proper...
Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled...
Scanning tunneling microscopy, spectroscopy, and tight-binding calculations have been used to elucid...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
Single-wall carbon nanotubes (SWCNTs) have been synthesized and purified. Using a water colloid, SWC...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Abstract. This paper summarizes scanning probe microscopy investigations of the properties and manip...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...
Band structure calculations show that carbon nanotubes exist as either metals or semiconductors, dep...