Add to ORKGThe possibility of coupling two Y-junctions of carbon nanotubes, forming a type of nanotube ring is addressed here. Recent experimental evidences of growing carbon nanotube structures forming basically Y-kind junctions give support to this theoretical proposition. A single-band tight-binding Hamiltonian is considered and local electronic properties are investigated via the Green function formalism following renormalization techniques. Modulation on the transport properties of those nanostructured systems may be induced by considering different kind of junctions and different symmetries. Quantum interference phenomena are proven to reduce partial or completely the conductance of such nanoring structures
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
The possibility of coupling two Y-junctions of carbon nanotubes, forming a type of nanotube ring is ...
Carbon nanotubes are cylindrical molecules which present interesting mechanical and electronical pro...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
[[abstract]]© 2004 American Physical Society-The band structure modulation was investigated in carbo...
We show that the band structure of metallic carbon nanotubes can be dramatically altered by the loc...
We have calculated the quantum conductance of single-walled carbon nanotube (SWNT) waveguide by usin...
The quantum conductance oscillations (QCOs) of the intramolecular junction (IMJ) composed of two si...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
The possibility of coupling two Y-junctions of carbon nanotubes, forming a type of nanotube ring is ...
Carbon nanotubes are cylindrical molecules which present interesting mechanical and electronical pro...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
[[abstract]]© 2004 American Physical Society-The band structure modulation was investigated in carbo...
We show that the band structure of metallic carbon nanotubes can be dramatically altered by the loc...
We have calculated the quantum conductance of single-walled carbon nanotube (SWNT) waveguide by usin...
The quantum conductance oscillations (QCOs) of the intramolecular junction (IMJ) composed of two si...
This thesis comprises detailed experimental and theoretical investigations of the transport properti...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon Nanotube (CNT) morphologies with a self-contained gate, such as Y-junctions, offer a new way ...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...
Carbon-nanotube-based electronics offers significant potential as a nanoscale alternative to silicon...