A novel process to immobilize oxide particles with electrolytically deposited metals as binders was proposed. Commercial TiO 2 photocatalyst particles, P25, were successfully immobilized on the surface of stainless steel substrates with Pd and Cu by this process. The effects of the conditions of electrolysis and the composition of the source solutions on the amount and the morphology of the particles accumulated on the surface were investigated. Addition of another particle with superior dispersibility, NanoTek, and sonication during electrodeposition were important to inhibit agglomeration of the particles and to achieve uniform and dense immobilization. Photocatalytic activity, which was evaluated by photobleaching of methylene blue solution, of the immobilized particles was as high as 50ಚ of the particles suspended in the solution.
Ookubo, As an electrical contact material that is compatible with the recent trend of miniaturization of electronic devices and components, the authors have been investigating electrodeposited amorphous gold alloys with properties that are unaffected by their crystal-grain size, unlike conventional electroplated hard gold. Amorphous alloys in general, however, are known to suffer from high electrical resistivity because of the short mean free path of electrons in such alloys. To resolve this problem, we developed a process of electroplating Au-Ni alloy films with a mixture of nanocrystalline and amorphous phases and investigated the films' physical characteristics. Results show that those Au-Ni films with mixed phases possess low electrical resistivity, retaining corrosion resistance in a range of practical tolerances. The microstructure of the new material of nanocrystalline-amorphous Au-Ni alloy excels in mechanical strength while retaining the properties of Au. Moreover, it is thermally stable at temperatures up to 300 ℃. Consequently, this new material is expected to be useful as a material for electrical contact surfaces. Furthermore, this study revealed that the electroplated Au-Ni alloy film microstructure is controllable by selecting suitable bath compositions and plating conditions.Keywords : Au Deposit, Au-Ni Alloy Deposit, Nanocrystal, Amorphous
.緒 言現在電気接点材料として,貴金属の特性
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