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Ti/W/Mo oxide in-situ reinforced platinum/palladium nanostructured composite catalyst and preparation method thereof

A composite catalyst and oxide technology, applied in the fields of electrocatalysis and material science, can solve the problems of high cost, complicated steps, environmental damage, etc., and achieve high production efficiency, simple and easy method, and improved chemical stability and structural stability. Effect

Active Publication Date: 2015-12-30
TAIYUAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the preparation of transition metal oxide-enhanced noble metal catalysts mainly adopts the chemical reduction method. First, transition metal nanoparticles are obtained in ethylene glycol solution through strong reducing agents (such as sodium borohydride, hydrazine, etc.), and then the transition metal nanoparticles are made by high-temperature heat treatment. Transform into oxide nanoparticles, and then use it as a carrier to reduce noble metal salts (such as chloroplatinic acid, potassium chloroplatinate, ammonium chloroplatinate, chloropalladium acid, etc.) The oxide / platinum (palladium) composite catalyst is formed on the surface of the oxide carrier. Obviously, the traditional preparation method has complicated steps, and a large amount of precious metal salts, strong reducing agents, and organic solvents are involved. The cost is high and the damage to the environment is relatively large.

Method used

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  • Ti/W/Mo oxide in-situ reinforced platinum/palladium nanostructured composite catalyst and preparation method thereof
  • Ti/W/Mo oxide in-situ reinforced platinum/palladium nanostructured composite catalyst and preparation method thereof
  • Ti/W/Mo oxide in-situ reinforced platinum/palladium nanostructured composite catalyst and preparation method thereof

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Embodiment 1

[0035] A kind of oxide in situ enhanced platinum (palladium) nanostructure composite electrocatalyst and preparation method thereof, wherein the oxide nanostructure generated in situ is titanium oxide, noble metal is platinum, wherein the ratio of titanium oxide to platinum is roughly 1: 3. Add 50% carbon powder and mix evenly, and load it on the surface of glassy carbon electrode for related electrochemical tests.

[0036] The preparation method of the above titanium oxide in situ reinforced platinum nanostructure composite electrocatalyst is as follows:

[0037] First process a suitable mosaic composite target, such as attached figure 1 As shown, the aluminum target is selected as the base target, with a diameter of 100mm and a thickness of 6mm. Holes are evenly spaced along the area where the magnetic field lines are dense during the magnetron sputtering process, and titanium wires and platinum wires are implanted to make them closely bonded to each other. The surface is s...

Embodiment 2

[0042] An oxide in-situ enhanced platinum (palladium) nanostructure composite electrocatalyst and preparation method thereof, wherein the oxide nanostructure generated in situ is tungsten oxide, and the noble metal is platinum, wherein the ratio of tungsten oxide to platinum is approximately 1: 1.

[0043] The preparation method of the above tungsten oxide in-situ reinforced platinum nanostructure composite electrocatalyst is as follows:

[0044] Firstly, a suitable mosaic composite target is processed, and an aluminum target is selected as the base target. Holes are uniformly drilled and implanted with tungsten wires and platinum wires at intervals along the magnetron sputtering process where the magnetic force lines are dense, so that they are closely bonded to each other, and the surface Flatten, place the prepared composite target on the target position of the magnetron sputtering furnace. Clean the copper strip substrate, and carry out ultrasonic treatment with deionized...

Embodiment 3

[0047] A kind of oxide in situ enhanced platinum (palladium) nanostructure composite electrocatalyst and preparation method thereof, wherein the oxide nanostructure generated in situ is molybdenum oxide, noble metal is palladium, wherein the ratio of molybdenum oxide to palladium is approximately 1: 1.

[0048] The preparation method of the molybdenum oxide in-situ reinforced palladium nanostructure composite electrocatalyst is as follows:

[0049] Firstly, a suitable mosaic composite target is processed, and the aluminum target is selected as the base target, and holes are evenly spaced along the area where the magnetic force lines are dense during the magnetron sputtering process, and molybdenum wire and palladium wire are implanted to make them closely bonded to each other. Flatten, place the prepared composite target on the target position of the magnetron sputtering furnace. Clean the inorganic silicate glass substrate and perform ultrasonic treatment with deionized wate...

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Abstract

The invention discloses a Ti / W / Mo oxide in-situ reinforced platinum / palladium nanostructured composite catalyst and a preparation method thereof and belongs to the technical field of material science and the field of electro-catalysis. According to the catalyst, an Al-Ti / W / Mo-platinum (palladium) alloy film is obtained with a magnetron sputtering process, the alloy film is soaked in an alkaline solution or an oxygen-rich acid solution or washed with the alkaline solution or the oxygen-rich acid solution, aluminum is selectively corroded, platinum (palladium) atoms and Ti / W / Mo atoms are released, the Ti / W / Mo atoms exposed on a selective corrosion reaction interface are in a complete activated state and are directly combined with oxygen species in a corrosion solution, nano-oxide is formed and performs combination, inlaying and adhesion with precious metal platinum (palladium) on the reaction interface in an in-situ state, and finally, an oxide in-situ reinforced precious metal nano-composite-structure catalyst is formed. According to the catalyst and the preparation method, the operation is simple, industrial production is easy, the cost is saved, the preparation process is environmental-friendly, the oxide and precious metal are closely combined, and the catalyst is an ideal catalyst for anode electrical oxidation reaction of direct alcohol or formic acid fuel cells.

Description

technical field [0001] The invention relates to a Ti / W / Mo oxide in-situ reinforced platinum / palladium nanostructure composite catalyst and a preparation method thereof, which can be used in the electrocatalytic oxidation reaction of formic acid, methanol, ethanol and other liquid fuels, and belongs to the field of material science and technology and electrocatalysis field. Background technique [0002] The fuel cell system is a power generation device that directly converts the chemical energy of the fuel into electrical energy by means of an electrochemical reaction. Because it does not go through the heat engine process and is not limited by the Carnot cycle, the energy conversion efficiency is high, the environment is friendly, and almost no emissions Nitrogen oxides and sulfur oxides, carbon dioxide emissions are also greatly reduced, known as "green energy". Among them, the anode electrocatalyst is one of the key materials that determine the performance, life and cost ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/92
CPCH01M4/921Y02E60/50
Inventor 王孝广李瑞雪马自在何永伟王美唐宾
Owner TAIYUAN UNIV OF TECH
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