This work is devoted to research of nanomaterials and nanostructures for creation of super-high speed and THz micro- and nanoelectronics components. Using of III-nitride wide gap materials opens new possibilities for creation on their basis low-dimensional semiconductor structures, which combine possibilities to get more fast-acting and more powerful electronic devices in comparison with existent A3B5 devices.
In this paper on develop of the theory of construction and syntes plural coordinations microsystems end sensors of a mesurement of use IP end nano-microtechnology. On propose the metodologie miniaturize mechanical devices and components, This plural coordinations microsystems is the systems alternative the systems navigation. In this paper on presence the synthesis methods of create plural coordinations microsystems end sensors of a mesurement of use IP end nano-microtechnology. The plural coordinations microsystems caracterise the neu caracteristique metrologie.
Nanoelectronic signal processing devices based on crystal-like structures are the newest element base of information and telecommunication systems. Resonant-tunneling crystal-like structures and devices based on them with very high spectral selectivity are proposed. High-performance microwave microstrip signal processing devices are developed. To improve the efficiency crystal-like structures used in the modes conventional tunneling - resonant tunneling. Together, these effects provide maximum decoupling of signals in the passband and stopband.
With the help of computer simulation has been optimized geometry, calculated the dependence of electronic properties on the size of diamondoidі, having one or two different substituents in the molecule (external doping), the replacement of carbon atoms in certain positions diamondoids (internal doping) one or two heteroatoms.