FIELD: nanotechnology. SUBSTANCE: method involves material supply to reaction region located between electrodes and energy supply to reaction region, local activation of material, and acceptance of products of reaction at their outlet beyond reaction region. Spatial energy distribution and its magnitude in reaction region areas adjacent to each electrode are essentially equal. Device implementing this method has two electrodes each made in the form of pointed piece, exciting facility, and facility for accepting products of reaction which is spaced apart from pointed pieces. The latter are installed so that air gap between them is of nanotechnological size. EFFECT: improved stability of process characteristics and enlarged functional capabilities of device. 20 cl, 6 dwg
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Authors
Dates
1998-11-10—Published
1997-04-21—Filed