Add to ORKGThe imaging and characterization of individual molecules and atomically thin, effectively one-dimensional crystals of rock salt and other halides encapsulated within single-walled carbon nanotubes are reviewed in this article. These species were imaged by conventional and super-resolved high-resolution transmission electron microscopy and by scanning tunneling microscopy, revealing the detailed atomic structure of these nanoscopic species
Carbon fullerenes are unusually structured molecules with robust mechanical and electronic propertie...
Carbon nanotubes (CNTs) make an ideal one-dimensional (1D) material platform for the exploration of ...
The work presented in this thesis investigates demonstrates the unique ability of single-walled carb...
The imaging and characterization of individual molecules and atomically thin, effectively one-dimens...
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 crystal growth behavior and crystallography of a variety of metal halides incorporated within si...
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 comparative crystallisation and HRTEM imaging properties of simple binary halides formed by the ...
This thesis is concerned with the encapsulation of inorganic material within the cavity of single-wa...
The growth behaviour and crystallography of metal halides incorporated within single walled carbon n...
There are many examples in which the cavities of carbon nanotubes have been filled with a variety of...
Extreme nanowires (ENs) represent the ultimate class of crystals: They are the smallest possible per...
Indirect high resolution electron microscopy using one of several possible data-set geometries offer...
Carbon fullerenes are unusually structured molecules with robust mechanical and electronic propertie...
Carbon nanotubes (CNTs) make an ideal one-dimensional (1D) material platform for the exploration of ...
The work presented in this thesis investigates demonstrates the unique ability of single-walled carb...
The imaging and characterization of individual molecules and atomically thin, effectively one-dimens...
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 crystal growth behavior and crystallography of a variety of metal halides incorporated within si...
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 comparative crystallisation and HRTEM imaging properties of simple binary halides formed by the ...
This thesis is concerned with the encapsulation of inorganic material within the cavity of single-wa...
The growth behaviour and crystallography of metal halides incorporated within single walled carbon n...
There are many examples in which the cavities of carbon nanotubes have been filled with a variety of...
Extreme nanowires (ENs) represent the ultimate class of crystals: They are the smallest possible per...
Indirect high resolution electron microscopy using one of several possible data-set geometries offer...
Carbon fullerenes are unusually structured molecules with robust mechanical and electronic propertie...
Carbon nanotubes (CNTs) make an ideal one-dimensional (1D) material platform for the exploration of ...
The work presented in this thesis investigates demonstrates the unique ability of single-walled carb...