Copper-Tin Catalyst

Description

1. Product Overview

Copper-Tin Catalyst is a high-performance bimetallic catalytic material engineered for advanced industrial chemical processes requiring selective hydrogenation, oxidation, and dehydrogenation. Composed of copper (Cu) and tin (Sn) in optimized ratios, it delivers superior activity, selectivity, and thermal stability under demanding operating conditions. Its primary value lies in enhancing reaction efficiency while minimizing by-products, enabling cost-effective and sustainable production. Widely used across petrochemical, fine chemical, and pharmaceutical industries, this catalyst represents a strategic solution for manufacturers seeking performance optimization and process reliability.

2. Key Specifications & Technical Characteristics

• Chemical Composition: Copper (Cu) and Tin (Sn) supported on tailored carriers (e.g., alumina, silica, or carbon)
• Purity/Grade: Industrial-grade catalyst with high metal dispersion and controlled composition
• Physical Form: Pellets, granules, or powder
• Color: Reddish-brown to gray metallic appearance
• Particle Size: Customizable (typically 1–5 mm pellets or fine powder <100 µm)
• Bulk Density: Typically 0.8–1.3 g/cm³ (depending on support and form)
• Surface Area: Optimized for high catalytic activity (varies by formulation)
• Packaging Options:
  • 25 kg sealed drums
  • 500–1000 kg jumbo bags
  • Custom industrial packaging upon request
• Shelf Life: 12–24 months under dry, sealed storage conditions

3. Core Industrial Applications

Copper-Tin Catalyst is extensively deployed in:

• Petrochemical Processing: Hydrogenation and dehydrogenation reactions for hydrocarbon upgrading
• Fine Chemicals Manufacturing: Selective reduction and oxidation processes for intermediates
• Pharmaceutical Production: Catalytic synthesis of active compounds requiring high selectivity
• Alcohol & Aldehyde Production: Efficient conversion processes with minimized side reactions

Operational Use Cases:

• Selective hydrogenation of unsaturated compounds
• Dehydrogenation of alcohols to aldehydes/ketones
• Oxidation reactions with controlled product yield

Performance Advantages:

• Enhanced selectivity reduces downstream purification costs
• High thermal and chemical stability extends catalyst lifecycle
• Lower metal cost compared to noble metal catalysts (e.g., Pd, Pt)
• Reduced coke formation improves process uptime and efficiency

4. Competitive Advantages

• Quality Consistency: Strict process control ensures uniform metal dispersion and repeatable catalytic performance
• Supply Reliability: Scalable production capacity with consistent batch availability
• Logistics Capability: Global shipping with optimized packaging for safe and efficient transport
• Price Competitiveness: Cost-effective alternative to precious metal catalysts without compromising performance
• Sustainability: Lower environmental impact through reduced energy consumption and extended catalyst lifespan
• Technical Support: Comprehensive documentation, application guidance, and customization support available

5. Commercial & Supply Information

• Minimum Order Quantity (MOQ): BULK 20MT
• Loading Capacity:
  • 20’ Container: 20–22 MT
  • 40’ Container: 24–26 MT