Carbon Supported Platinum Based Catalyst ISO14001 Approved Electrochemical
Product Details:
Place of Origin: | Created in China |
Brand Name: | Sino-Science Hydrogen |
Certification: | ISO9001, ISO14001 quality management system certification |
Model Number: | 20~60% loading |
Payment & Shipping Terms:
Minimum Order Quantity: | 5g |
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Price: | Negotiable |
Packaging Details: | Professional packaging |
Delivery Time: | Within one month after order |
Payment Terms: | T/T, MoneyGram |
Supply Ability: | 50KG/months |
Detail Information |
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Specifications: | Pt/C | PtLoading: | 20~60 |
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Color: | Black | Material: | Chloroplatinic Acid |
Classification: | Catalyst | MF: | Pt |
High Light: | ISO14001 Platinum Based Catalyst,Electrochemical Platinum Based Catalyst,Electrochemical carbon supported catalyst |
Product Description
Black Powder Platinum Catalyst Hydrogen Fuel Cell High Performance Fuel Cell Material
Specification
Specifications | Pt/C |
PtLoading | 20~60 |
Color | Black |
Material | Chloroplatinic acid |
Classification | Catalyst |
MF | Pt |
Cas | 7440-06-4 |
Description
The catalyst is coated on the proton membrane to form a membrane electrode component. The single cell structure is composed of current collecting plates, bipolar plates, membrane electrodes and other components. Hydrogen enters the system and does not burn, but contacts the membrane electrode to produce an electrochemical reaction, which is directly converted into electrical energy. The hydrogen fuel cell is not a battery in the traditional sense, but a generator. Our product is the core key material of hydrogen fuel cell-platinum carbon catalyst. Our product adopts a brand-new technical route, room temperature preparation process, environmental protection, low energy consumption, and low cost; the product yield is high, and the batch is It is highly consistent with each other, and the impurity ion content is far less than the industry allowable value.
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.
Application area
1. Organic synthesis: dehydrogenation reaction, aromatic ring hydrogenation reaction, hydrogen peroxide decomposition, gas purification;
2. Used in the compound reaction of hydrogen and oxygen, purifying hydrogen from oxygen, argon, nitrogen, carbon dioxide, air, and helium;
3. Used for the compound reaction of oxygen and carbon tetrachloride to purify oxygen from nitrogen;
4. Used for the compound reaction of hydrocarbon compounds and oxygen, purifying hydrocarbon compounds from oxygen, nitrogen, carbon dioxide, air, helium, and argon;
5. Used for the compound reaction of carbon monoxide and oxygen to purify carbon monoxide from carbon dioxide, nitrogen and air