Add to ORKGIndirect high resolution electron microscopy using one of several possible data-set geometries offers advantages over conventional high-resolution imaging in enabling the recovery of the complex wavefunction at the specimen exit plane and simultaneously eliminating the aberrations present in the objective lens. This article discusses results obtained using this method from structures formed by inorganic materials confined within the bores of carbon nanotubes. Such materials are shown to be atomically regulated due to their confinement, leading to integral layer architectures that we have termed "Feynman crystals." These one-dimensional (1D) crystals also show a wide range of structural deviations from the bulk, including unexpected lattice ...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
The stability of novel, low dimensional, crystal structures formed by a simple alkali halide (KI) in...
Single-walled carbon nanotubes (SWNTs) have been used as growth templates for spatially confined cry...
The structural chemistry of nanoscale materials encapsulated within single-walled carbon nanotubes (...
The crystal growth behaviour of solid phase halides encapsulated within single walled carbon nanotub...
The crystal growth behaviour and crystallography of a variety of metal halides incorporated within s...
The growth behaviour and crystallography of metal halides incorporated within single walled carbon n...
The crystal growth behavior and crystallography of a variety of metal halides incorporated within si...
Transmission electron imaging and diffraction are used to probe the atomic-level structure of single...
The imaging and characterization of individual molecules and atomically thin, effectively one-dimens...
The atomic structure of single-wall carbon nanotube bundles produced by three different techniques ...
We use high resolution electron microscopy to study the structure of carbon nanotubes. Although the ...
Abstract.We have obtained atomically resolved STM images of individual single-wall carbon nanotubes....
Nanocomposites consisting of one-dimensional CuI crystals inside single-walled carbon nanotubes were...
Carbon nanotubes are small cylindrical molecules with a typical diameter of 1 nm and lengths of up t...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
The stability of novel, low dimensional, crystal structures formed by a simple alkali halide (KI) in...
Single-walled carbon nanotubes (SWNTs) have been used as growth templates for spatially confined cry...
The structural chemistry of nanoscale materials encapsulated within single-walled carbon nanotubes (...
The crystal growth behaviour of solid phase halides encapsulated within single walled carbon nanotub...
The crystal growth behaviour and crystallography of a variety of metal halides incorporated within s...
The growth behaviour and crystallography of metal halides incorporated within single walled carbon n...
The crystal growth behavior and crystallography of a variety of metal halides incorporated within si...
Transmission electron imaging and diffraction are used to probe the atomic-level structure of single...
The imaging and characterization of individual molecules and atomically thin, effectively one-dimens...
The atomic structure of single-wall carbon nanotube bundles produced by three different techniques ...
We use high resolution electron microscopy to study the structure of carbon nanotubes. Although the ...
Abstract.We have obtained atomically resolved STM images of individual single-wall carbon nanotubes....
Nanocomposites consisting of one-dimensional CuI crystals inside single-walled carbon nanotubes were...
Carbon nanotubes are small cylindrical molecules with a typical diameter of 1 nm and lengths of up t...
Recent years have witnessed an increased demand for more powerful computers and continuous miniaturi...
The stability of novel, low dimensional, crystal structures formed by a simple alkali halide (KI) in...
Single-walled carbon nanotubes (SWNTs) have been used as growth templates for spatially confined cry...