FIELD: nanotechnology.
SUBSTANCE: invention relates to the field of nanotechnology, namely to electronic elements consisting of the layers and containing nanomaterials in their structure. In the electronic element, comprising layers of materials with conductive and nonconductive parts, at least one layer is made of a metal matrix composite containing 25-75% (by volume) of reinforcing particles consisting of nanodiamonds with high electrical resistance and bulb-shaped carbon nanoparticles with low electrical resistance, arranged in order providing the flow of electric current in the desired direction. In the method of manufacturing of electronic elements, consisting of layer application of required materials, at least one layer is made of a metal matrix composite produced by the method of mechanical alloying of the initial particles of the matrix material and 25-75% (by volume) of nanodiamond particles, at that first the granules of composite material are obtained, then the composite material is applied on the preliminary treated process surface, the surface alignment is carried out, then local heating of those areas that need to be conductive is carried out to temperatures exceeding 1000°C, thereby transforming nanodiamonds in bulb-shaped carbon nanoparticles.
EFFECT: reduction in the size of electronic elements.
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