Palladium on Carbon Catalyst Description
Palladium on Carbon is a catalyst produced by applying palladium powder to activated carbon. Its primary function is the catalytic hydrogenation of unsaturated hydrocarbons or CO. Its primary function is the catalytic hydrogenation of unsaturated hydrocarbons and CO. It is characterised by a high reduction capacity during hydrogenation, good selectivity, stable performance, a low usage ratio during application, reusability and ease of recovery. It is used in hydrogenation refining processes in petrochemicals, pharmaceuticals, electronics, perfumery, dyes and other fine chemicals.
Palladium on Carbon Catalyst Specifications
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Specific Surface Area (m²/g)
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≥930
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Metal Surface Area (m²/g)
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48~65
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Average Carrier Diameter (µm)
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28~34
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Impurity (%)
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≤0.3
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Grain Intensity
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≥90
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Moisture Content (%)
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0.1
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Main Reaction Yield (%)
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90-99
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Ash Content (m)
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≥5
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Palladium-Clay Catalyst
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Palladium Content (%)
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1.0±0.02
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3.0±0.02
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5.0±0.02
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Index Designation
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Φ1.5~5.0
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Φ1.5~5.0
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Φ1.5~5.0
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Wear Rate (%)
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≤ 0.25
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≤ 0.25
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≤ 0.25
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Bulk Density (g/ml)
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≥ 0.65
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≥ 0.65
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≥ 0.65
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Static Water Absorption (%)
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≥ 20.0
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≥ 20.0
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≥ 20.0
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Static Normal Hexane Absorption (%)
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≥ 12.0
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≥ 12.0
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≥ 12.0
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Specific Surface Area (m²/g)
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≥ 100
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≥ 100
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≥ 100
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Point Contact Strength (N/Grain)
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≥ 50
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≥ 55
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≥ 55
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Coefficient of Variation of Crushing Resistance
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≤ 0.3
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≤ 0.3
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≤ 0.3
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Granularity (%)
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≥ 96
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≥ 96
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≥ 96
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Moisture Content of Packaged Product (%)
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≤ 1.5
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≤ 1.5
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≤ 1.5
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Palladium on Carbon Catalyst Applications
- Hydrogenation of alkynes to alkanes
- Hydrogenation of aromatic aldehydes to alcohols
- Hydrogenation of aromatic ketones to carbonyl compounds
- Hydrogenation of aromatic ketone to alcohol
- Reduction of aromatic ketones to hydrocarbons
- Production of pharmaceutical intermediates such as aniline and succinic acid
Main Features of the Palladium on Carbon Catalyst
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High-purity Palladium: The Pd/C catalyst is manufactured with palladium of high purity. This process is controlled to meet specific quantitative standards in chemical reactions.
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Versatile catalytic activity: The catalyst is used for hydrogenation, dehydrogenation and oxidation reactions, thereby supporting a range of chemical processes.
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Uniform particle size: The catalyst exhibits a uniform particle size distribution, which ensures consistent experimental outcomes.
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Large surface area: The optimised surface area facilitates efficient contact with reactants, thereby leading to increased yields and faster reaction kinetics.
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Stability and durability: The catalyst is engineered for long-term stability. It resists degradation during extended reactions.
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Customisable options: Various loadings and formulations are offered to meet specific requirements and to provide custom solutions for individual applications.
Why should you choose our Pd/C catalyst?
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Quality assurance: Strict quality control standards are maintained to ensure the purity and consistency of the Pd/C catalysts.
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Expert support: A team of experienced chemists and technical experts is available to assist with any queries or challenges.
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Customisation: Customised solutions are provided to meet specific project requirements, thereby ensuring optimal results.
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Competitive pricing: Competitively priced Pd/C catalysts are available for both research and industrial applications.
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Global availability: Products are shipped worldwide, ensuring that the catalysts reach researchers and industry internationally.
Palladium on Carbon Catalyst Packaging
Our Palladium on Carbon Catalyst is packaged in a glass bottle containing 25 g. Customised packaging options are available. The product is clearly marked and labelled externally to facilitate efficient identification and quality control. Care is taken to ensure that no damage occurs during storage or transport.
Converters & Calculators
