Add to ORKGWe report the anisotropic atomic expansion dynamics of multi-walled carbon nanotubes, using 4D electron microscopy. From time-resolved diffraction on the picosecond to millisecond scale, following ultrafast heating at the rate of 10^(13) K/s, it is shown that nanotubes expand only in the radial (intertubule) direction, whereas no significant change is observed in the intratubular axial or equatorial dimensions. The non-equilibrium heating occurs on an ultrafast time scale, indicating that the anisotropy is the result of an efficient electron−lattice coupling and is maintained up to equilibration. The recovery time, which measures the heat dissipation rate for equilibration, was found to be on the order of ∼100 μs. This recovery...
Nanofluidics involves the study of fluid transport in nanometer-scale structures. We report the dire...
The atomic structure of ultralong carbon nanotubes obtained by catalytic chemical vapor deposition i...
The coalescence of single-walled nanotubes is studied in situ under electron irradiation at high tem...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
We use in situ low-voltage aberration corrected high resolution transmission electron microscopy wit...
Electron tomography provides three-dimensional (3D) imaging of noncrystalline and crystalline equili...
The hollow core of a carbon nanotube (CNT) provides a unique opportunity to explore the physics, che...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
When a composite nanocable of single-walled carbon nanotubes (SWNTs) and amorphous carbon is fixed a...
The hollow core of a carbon nanotube (CNT) provides a unique opportunity to explore the physics, che...
The molecular structure and dynamics of carbon nanostructures is much discussed throughout the liter...
In situ heating transmission electron microscopy observations clearly reveal remarkable interlayer e...
The coalescence of single-walled nanotubes is studied in situ under electron irradiation at high tem...
We use high resolution electron microscopy to study the structure of carbon nanotubes. Although the ...
Nanofluidics involves the study of fluid transport in nanometer-scale structures. We report the dire...
The atomic structure of ultralong carbon nanotubes obtained by catalytic chemical vapor deposition i...
The coalescence of single-walled nanotubes is studied in situ under electron irradiation at high tem...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
We use in situ low-voltage aberration corrected high resolution transmission electron microscopy wit...
Electron tomography provides three-dimensional (3D) imaging of noncrystalline and crystalline equili...
The hollow core of a carbon nanotube (CNT) provides a unique opportunity to explore the physics, che...
The coupling between electronic and nuclear degrees of freedom in low-dimensional, nanoscale systems...
When a composite nanocable of single-walled carbon nanotubes (SWNTs) and amorphous carbon is fixed a...
The hollow core of a carbon nanotube (CNT) provides a unique opportunity to explore the physics, che...
The molecular structure and dynamics of carbon nanostructures is much discussed throughout the liter...
In situ heating transmission electron microscopy observations clearly reveal remarkable interlayer e...
The coalescence of single-walled nanotubes is studied in situ under electron irradiation at high tem...
We use high resolution electron microscopy to study the structure of carbon nanotubes. Although the ...
Nanofluidics involves the study of fluid transport in nanometer-scale structures. We report the dire...
The atomic structure of ultralong carbon nanotubes obtained by catalytic chemical vapor deposition i...
The coalescence of single-walled nanotubes is studied in situ under electron irradiation at high tem...