FIELD: nanotechnology.
SUBSTANCE: method comprises influence of the electric discharge on the electrode in the aqueous electrically conductive medium. At that in the aqueous electrically conductive medium with a specific electric conductivity of 0.3-0.7 Ohm/cm at least two electrodes made of different materials are immersed. The chemical composition of one of the electrodes, which is smaller in the contact area with the electrically conductive medium, corresponds to the desired composition of the resulting nanomaterial. To obtain nanomaterial, the said electrode is exposed with an electric discharge with a specific power of 0.1-0.9 kVA/cm2 at room temperature and atmospheric pressure, with the formation of a stationary plasma discharge to form the nanomaterial.
EFFECT: simplicity, accessibility of the method, low-cost equipment.
3 dwg, 2 ex
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