Add to ORKGAn atomic force microscope was used to locally perturb and detect the charge density in carbon nanotubes. Changing the tip voltage varied the Fermi level in the nanotube. The local charge density increased abruptly whenever the Fermi level was swept through a van Hove singularity in the density of states, thereby coupling the cantilever's mechanical oscillations to the nanotube's local electronic properties. By using our technique to measure the local band gap of an intratube quantum-well structure, created by a nonuniform uniaxial strain, we have estimated the nanotube chiral angle. Our technique does not require attached electrodes or a specialized substrate, yielding a unique high-resolution spectroscopic tool that facilitates the compar...
We investigated the local density of states (LDOS) of extended individual metallic single-walled car...
Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled...
The electrical and chemical properties of carbon nanotubes vary significantly with different chirali...
An atomic force microscope was used to locally perturb and detect the charge density in carbon nanot...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
We have measured the local current density on individual single-wall carbon nanotubes (SWNTs) with t...
Carbon nanotubes are small cylindrical molecules with a typical diameter of 1 nm and lengths of up t...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Topology related changes in the local density of states near the ends of closed carbon nanotubes are...
Topology related changes in the local density of states near the ends of closed carbon nanotubes are...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
International audienceCarbon nanotubes have attracted considerable interest for their unique electro...
THESIS 9389In order to build electronic devices and circuits comprised of nanoscale materials as the...
We use a low energy, continuum theory to study two nanotube systems, piezoelectric nanotubes and hel...
Carbon nanotubes are novel materials with unique electrical and mechanical properties. Here we prese...
We investigated the local density of states (LDOS) of extended individual metallic single-walled car...
Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled...
The electrical and chemical properties of carbon nanotubes vary significantly with different chirali...
An atomic force microscope was used to locally perturb and detect the charge density in carbon nanot...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
We have measured the local current density on individual single-wall carbon nanotubes (SWNTs) with t...
Carbon nanotubes are small cylindrical molecules with a typical diameter of 1 nm and lengths of up t...
Single-wall carbon nanotubes (SWNTs) are unique molecular conductors that can act as quantum wires o...
Topology related changes in the local density of states near the ends of closed carbon nanotubes are...
Topology related changes in the local density of states near the ends of closed carbon nanotubes are...
We review recent progress in the measurement and understanding of the electrical properties of indiv...
International audienceCarbon nanotubes have attracted considerable interest for their unique electro...
THESIS 9389In order to build electronic devices and circuits comprised of nanoscale materials as the...
We use a low energy, continuum theory to study two nanotube systems, piezoelectric nanotubes and hel...
Carbon nanotubes are novel materials with unique electrical and mechanical properties. Here we prese...
We investigated the local density of states (LDOS) of extended individual metallic single-walled car...
Recent scanning tunneling microscopy studies of the intrinsic electronic properties of single-walled...
The electrical and chemical properties of carbon nanotubes vary significantly with different chirali...