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Black Hydrogen Electrolysis Catalyst , 60Pt Fuel Cell Electrode Materials
Product Details:
| Place of Origin: | Created in China |
| Brand Name: | Sino-Science Hydrogen |
| Certification: | ISO9001, ISO14001 quality management system certification |
| Model Number: | 40~60% loading |
Payment & Shipping Terms:
| Minimum Order Quantity: | 5g |
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| Packaging Details: | Professional packaging |
| Delivery Time: | Within one month after order |
| Payment Terms: | T/T, MoneyGram |
| Supply Ability: | 50KG/months |
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Detail Information |
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| Color: | Black | Material: | Chloroplatinic Acid |
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| Purpose: | Power Generation | Morphology: | Powder |
| Catalyst Component: | Pt/C | Composition: | Pt/Co(atom)=3:1 |
| High Light: | ISO9001 fuel cell electrode materials,60Pt fuel cell electrode materials,Black hydrogen electrolysis catalyst |
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Product Description
Sino-Science Hydrogen Fuel cell core material Platinum Catalyst Hydrogen Fuel Cell High-performance
| Parameter | Technical index |
| Catalyst component | Pt/C |
| Composition | Pt/Co(atom)=3:1 |
| Metal loading (wt.%) | 40~60 |
| Electrochemically active area (m2g-1) | 45.0~60.0 |
| Oxygen reduction mass activity (Amg-1Pt@0.9VRHE) | 0.45~0.65 |
| Color | Black |
| Material | Chloroplatinic acid |
| Cas | 7440-06-4 |
Description
This product is a black powder. The platinum catalyst is supported on a carbon carrier with a high specific surface area. It is mainly used in the electrocatalysis of proton exchange membrane fuel cells. It can also be used in electrolysis of water to produce hydrogen, sensors, etc.
After 30,000 cycles of accelerated aging, the electrochemical active area attenuation is less than 30%, and the mass activity attenuation is less than 35%, which is higher than the US Department of Energy's standard of <40%.Can be customized according to customer needs
Platinum on carbon is used for catalytic hydrogenations in organic synthesis. Examples include carbonyl reduction, nitro compound reduction, secondary amine production via nitrile reduction, and the production of saturated heterocycles from their respective aromatic compound precursors.
Technology
A new technical route from 0 to 1, using an aqueous solution system and a preparation process close to room temperature, which is environmentally friendly, low energy consumption, and low preparation cost; the product yield is high, the batch is highly consistent, and the content of chloride ions and other impurity ions is far less than the industry allowable value.
