Carbon Supported Platinum Used In Hydrogen Fuel Cells ISO14001 Approved
|Place of Origin:||Created in China|
|Brand Name:||Sino-Science Hydrogen|
|Certification:||ISO9001, ISO14001 quality management system certification|
|Model Number:||47% loading|
Payment & Shipping Terms:
|Minimum Order Quantity:||5g|
|Packaging Details:||Professional packaging|
|Delivery Time:||Within one month after order|
|Payment Terms:||T/T, MoneyGram|
ISO14001 carbon supported catalyst,
ISO14001 platinum used in hydrogen fuel cells,
platinum used in hydrogen fuel cells
Sino-Science Hydrogen Fuel cell core material High-performance platinum-carbon catalyst 47% loading
Catalyst is the core and key material of fuel cell. The platinum carbon catalyst is coated on the proton membrane to become a component of the membrane electrode, which is the main component of the stack. For platinum carbon catalysts used in hydrogen fuel cells, the platinum loading is generally more than 20%.The electrochemical active area exceeds more than 40% of similar products, with strong process adaptability, high repeatability and high yield. The difference of platinum carbon catalyst batch products is less than 1.8%Oxidation reaction; Reduction reaction; Reduction of aromatic compounds; Catalytic hydrogenation of polycyclic compound reduction reaction process. Core raw materials of products in hydrogen energy industry.
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.
1.It is the first to create a unique platinum carbon catalyst preparation technology. According to the public data, the technical route of our products is the original "from 0 to 1", rather than the common introduction and iteration in the market.
2.Using a new technical route and room temperature preparation process, it has the advantages of low energy consumption, environmental protection and low cost,
3.High controllability of production process.
4.High product output rate and low loss of raw materials