Abstract:
PROBLEM TO BE SOLVED: To provide a nanocomponent and a method for manufacturing a nanocomponent, a nanomachine or the like using the same. SOLUTION: The method for manufacturing a nanocomponent is carried out, in particular, by printing a grid on a substrate by photolithography or electron beam lithography, spraying a nanoplate aqueous solution to the grid portion to position a nanoplate, vapor depositing a protective film to a certain thickness on the substrate and on the upper part of the nanoplate placed on the substrate, etching the nanoplate with the vapor deposited protective film by focused ion beam or electron beam lithography, and removing a residual protective film by using a stripping agent for the protective film. The method for manufacturing a nanomachine or a nanostructure is carried out by moving and assembling the above nanocomponents with a nanoprobe. The invention provides a method for inexpensively and relatively easily manufacturing a nanocomponent of excellent quality and a method for realizing a nanomachine or the like by coupling the above nanocomponents and biomolecules or the like. COPYRIGHT: (C)2006,JPO&NCIPI
Abstract:
A method for manufacturing a nano gap electrode and a nano gap device manufactured by using the same are provided to manufacture uniform and reproductive nano gap electrodes by controlling the density and the reactive time of a reaction material. A method for manufacturing a nano gap electrode is characterized by dipping a substrate(1) having metal patterns(2) into a solution containing metal ions. And a reduced metal is grown on a surface of the metal pattern by a reducing agent included in the solution.
Abstract:
PURPOSE: A method for manufacturing a ferromagnetic signal crystal is provided to control a surface direction and a shape of the ferromagnetic single crystal. CONSTITUTION: A ferromagnetic thin film is formed on a substrate(S10). The ferromagnetic material is thermally processed under a hydrogen atmosphere(S20). A plurality of ferromagnetic single crystal are made. The ferromagnetic thin film is a Ni, Cr, or Fe thin film.
Abstract:
The present invention relates to gold nanoparticles which can be produced at low costs with high yields in large amounts by a liquid phase synthesis method and have a controlled size, as well as a synthesis method thereof. The inventive gold nanoparticles consist of gold nanoplates having a polygonal or circular plate structure.
Abstract:
The present invention relates to gold nanoparticles which can be produced at low costs with high yields in large amounts by a liquid phase synthesis method and have a controlled size, as well as a synthesis method thereof. The inventive gold nanoparticles consist of gold nanoplates having a polygonal or circular plate structure.