Fabrication Of Mesoporous Metal Electrodes In Non-Liquid-Crystalline Phase And Its Application
First Claim
1. A method for the fabrication of a mesoporous metal electrode which comprises chemically or electrochemically reducing a mixture comprising a solvent, a structure-directing agent and a source of a metal to deposit a metal-organic composite onto a substrate to obtain the mesoporous metal electrode, characterized in that the mixture is maintained in a non-liquid crystalline phase, and the deposition of the metal-organic composite onto the substrate is performed in the non-liquid crystalline mixture.
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Abstract
A method for the fabrication of a mesoporous metal electrode in a non-liquid crystalline phase was tested. Specifically, there was tested the efficacy of the method for the fabrication of a mesoporous metal electrode which comprises forming the mesoporous metal electrode on a substrate by chemical or electrochemical reduction of a mixture comprising a solvent, a structure-directing agent, and a source of a metal, characterized in that the mixture is maintained in a non-liquid crystal phase. Furthermore, the usefulness of the mesoporous metal electrode thus prepared from the non-liquid crystalline phase was also tested. The mesoporous metal electrode prepared from the non-liquid crystalline phase had a large surface area, and a roughness factor thereof was controlled by charges passed during electroplating. The method made it possible to fabricate the mesoporous metal electrode in the non-liquid crystalline phase, even more flexible than a liquid crystalline phase. The mesoporous metal electrode prepared by the method had randomly distributed mesopores on the surface thereof and retained a large roughness factor. The method was found to be a good alternative to the conventional fabrication of porous platinum films in the liquid crystalline phase. Furthermore, the method was found to be suitably applicable to automatic processes, because the mesoporous metal electrode was prepared in the highly flexible non-liquid crystalline phase. Recovery and recycling of raw materials were also improved. The mesoporous metal electrode prepared by the method can be suitably used for the detection of glucose and proton, and as a cathode or an anode of fuel cells.
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11 Claims
- 1. A method for the fabrication of a mesoporous metal electrode which comprises chemically or electrochemically reducing a mixture comprising a solvent, a structure-directing agent and a source of a metal to deposit a metal-organic composite onto a substrate to obtain the mesoporous metal electrode, characterized in that the mixture is maintained in a non-liquid crystalline phase, and the deposition of the metal-organic composite onto the substrate is performed in the non-liquid crystalline mixture.
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