Add to ORKGAbstract. The mathematical apparatus of simulation diffraction by spiral nanotubes of arbitrary chemical composition, whose structure is described with the use of Bravais cells, is developed. The case of electron microdiffraction by a single nanotube is considered, the distributions of intensity in layer planes and lengthways layer lines are calculated
Two new models for the geometric structure of nanotubes comprising hexagonal lattices are described....
We report a calibration-free method for the determination of chiral indices (n, m)of single-walled c...
AbstractTwo new models for the geometric structure of nanotubes comprising hexagonal lattices are de...
The quantitative theory of diffraction by spiral nanotubes of any chemical composition is offered. D...
The theory developed by Cochran, Crick and Vand for the diffraction of X-rays by helical biological...
The powder diffraction patterns of single- and multi-walled carbon nanotubes have been computed usin...
The analysis of diffraction by separate mixed-layer goffered nanotube's lattice is offered. Two extr...
The celebrated X-ray fiber diagram obtained by Rosalind Franklin for the paracrystalline phase of B-...
Le même formalisme est utilisé pour expliquer la diffraction par l’ADN et par les nanotube...
In this PhD-thesis a method was developed, which offers the possibility to analyze electron diffract...
We develop several methods for computer simulation of low energy electron scattering on three-dimens...
Crystals with cylindrical symmetry, not existing in nature, are mimicked by the roll-up of single-c...
High-energy X-ray diffraction has been used to study the structure of multi-wall carbon nanotubes, p...
Today's structural biology techniques require averaging over millions of molecules to obtain detaile...
The atomic structure of single-wall carbon nanotube bundles produced by three different techniques ...
Two new models for the geometric structure of nanotubes comprising hexagonal lattices are described....
We report a calibration-free method for the determination of chiral indices (n, m)of single-walled c...
AbstractTwo new models for the geometric structure of nanotubes comprising hexagonal lattices are de...
The quantitative theory of diffraction by spiral nanotubes of any chemical composition is offered. D...
The theory developed by Cochran, Crick and Vand for the diffraction of X-rays by helical biological...
The powder diffraction patterns of single- and multi-walled carbon nanotubes have been computed usin...
The analysis of diffraction by separate mixed-layer goffered nanotube's lattice is offered. Two extr...
The celebrated X-ray fiber diagram obtained by Rosalind Franklin for the paracrystalline phase of B-...
Le même formalisme est utilisé pour expliquer la diffraction par l’ADN et par les nanotube...
In this PhD-thesis a method was developed, which offers the possibility to analyze electron diffract...
We develop several methods for computer simulation of low energy electron scattering on three-dimens...
Crystals with cylindrical symmetry, not existing in nature, are mimicked by the roll-up of single-c...
High-energy X-ray diffraction has been used to study the structure of multi-wall carbon nanotubes, p...
Today's structural biology techniques require averaging over millions of molecules to obtain detaile...
The atomic structure of single-wall carbon nanotube bundles produced by three different techniques ...
Two new models for the geometric structure of nanotubes comprising hexagonal lattices are described....
We report a calibration-free method for the determination of chiral indices (n, m)of single-walled c...
AbstractTwo new models for the geometric structure of nanotubes comprising hexagonal lattices are de...