O. E. Glukhova

Thin films consisting of carbon nanotubes as a new material for emission electronics

The investigation results for the emission characteristics of thin films composed of nanotube carbon structures are described. These films are shown to provide high field electron emission and substantial thermal electron emission even at low temperatures. They exhibit low electron work functions and ensure stable field emission under conditions of operating vacuum.

Dimerization of miniature C20 and C28 fullerenes in nanoautoclave

A mathematical model of the new nanodevice based on the K+@C60@tubeC740 hybrid carbon compound and named as the nanoautoclave is presented. The operation of the nanoautoclave is demonstrated by the example of modeling the synthesis process of stable dimers of the C20 and C28 fullerenes. Energetic characteristics of the

Ponderomotive forces effect on the field emission of carbon nanotube films

{\left( {{C_{20}}} \right)_2}\left[ {2 + 2} \right]

Equilibrium state of C60, C70, and C72 nanoclusters and local defects of the molecular skeleton

dimer correspond to those calculated before. Parameters of the

Simulation of High Density Lipoprotein Behavior on a Few Layer Graphene Undergoing Non-Uniform Mechanical Load

{\left( {{C_{28}}} \right)_2}\left[ {1 + 1} \right]

Elastic and electrostatic properties of bamboo-shaped carbon nanotubes

dimer have been calculated for the first time. The dimerization process is simulated by the method of molecular dynamics with the tight-binding description of interatomic interactions.