Dicopper pyrophosphate
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Highlights:
DICOPPER PYROPHOSPHATE – Advanced Industrial & Chemical Solution
Professional Dicopper Pyrophosphate – High-Performance Electroplating Agent, Catalyst Component, Pigment Precursor, Flame Retardant, Ceramic Additive, Analytical Reagent, Copper Source & Specialized Chemical for Industrial Applications, Electronics Manufacturing, Ceramics, Pharmaceuticals & Advanced Chemical Processing Technology
✅ Premium Electroplating Agent – Superior Copper Deposition & Electronics Processing Excellence
✅ Catalyst Excellence – Outstanding Chemical Reaction Enhancement & Industrial Applications
✅ Pigment Quality – Exceptional Color Development & Coating Technology Compatibility
✅ Electronics Proven – Superior Circuit Board Manufacturing & Copper Plating Applications
✅ Quality Assured – Industrial, Electronics, Pharmaceutical & Global Standards Compliance Worldwide
Description
High-Purity Dicopper Pyrophosphate
Dicopper Pyrophosphate, featuring molecular formula Cu₂P₂O₇ and distinctive coordination chemistry, appearing as blue-green crystalline solid with excellent thermal stability, superior chemical reactivity, and exceptional industrial compatibility across diverse electroplating applications, is a versatile copper phosphate compound with excellent electroplating performance, enhanced catalytic efficiency, and superior functionality in electronics manufacturing, ceramic production, pigment synthesis, flame retardant systems, and industrial chemical applications. Dicopper Pyrophosphate is an inorganic copper salt extensively used for electroplating operations, ceramic manufacturing, catalyst preparation, and specialized industrial applications. Dicopper Pyrophosphate has been utilized commercially since the mid-20th century for electroplating technology, with modern high-performance applications expanding significantly for electronics manufacturing, and it is widely used across multiple industries for copper deposition, catalysis, and chemical processing, making it one of the most important copper-based chemicals in modern applications. The compound exhibits exceptional electrochemical properties and provides superior copper release characteristics making it ideal for electroplating operations, ceramic manufacturing, catalyst preparation, and specialized industrial processes. Dicopper Pyrophosphate is specifically processed to provide enhanced industrial performance, improved processing efficiency, and superior results in applications requiring effective copper deposition, reliable chemical stability, controlled release properties, and industrial-grade performance in electronics manufacturing, ceramics, pharmaceuticals, and specialized applications. In addition to its electroplating properties, it also has excellent thermal stability and controlled decomposition characteristics. The nature of dicopper pyrophosphate is thermally stable and chemically reactive under controlled conditions, making it function as one of the most versatile copper-based industrial chemicals available, being highly effective and providing excellent compatibility properties, delivering broad-spectrum industrial applications, effective chemical performance, excellent process compatibility under various conditions, and outstanding safety profile during handling and application. Dicopper Pyrophosphate represents one of the most essential and versatile copper compounds in modern electroplating operations, electronics manufacturing, ceramic production, and specialized industrial sectors, providing exceptional copper delivery properties, superior processing characteristics, excellent thermal compatibility, and outstanding regulatory compliance during manufacturing and application, making it essential for electroplating operations, circuit board production, ceramic manufacturing, catalyst preparation, and specialized applications requiring high-performance copper chemistry and regulatory approval with international industrial and processing standards.
At Chemicals & Process Equipment Limited, we supply advanced Dicopper Pyrophosphate manufactured under stringent quality control standards and international industrial, electronics grade, pharmaceutical, and ceramic specifications. Our comprehensive product range includes crystalline and powder forms, various purity grades, and specialized formulations meeting diverse requirements for electroplating operations, electronics manufacturing, ceramic applications, catalyst systems, and specialized applications across global industrial, chemical, electronics, and ceramic markets.
✅ Advanced Chemical Technology – Optimized Industrial & Processing Performance
✅ Consistent Quality Standards – Multiple Product Classifications with Complete Documentation
✅ Essential Copper Chemical – Superior Electroplating Properties & Thermal Compatibility
✅ Multi-Industry Applications – Electronics, Ceramics, Catalyst, Industrial Processing Industries
✅ Technical Support Package – Complete Application Guidance & Performance Optimization
The global dicopper pyrophosphate market was valued at approximately USD 45 million in 2023 and is projected to reach USD 68 million by 2030, growing at a CAGR of 6.1% during the forecast period. Market expansion is driven by increasing electronics demand, growing ceramic manufacturing requirements, expanding catalyst applications, and rising industrial electroplating applications across multiple sectors.
For comprehensive information about dicopper pyrophosphate applications in electroplating and industrial processing, this detailed technical resource from PubChem provides extensive coverage of dicopper pyrophosphate properties, unique performance characteristics, and optimization methods for modern electroplating and industrial applications.
Technical Specifications & Properties
| Property | Electronics Grade | Industrial Grade | Pharmaceutical Grade | Ceramic Grade | Catalyst Grade | Analytical Grade |
|---|---|---|---|---|---|---|
| Dicopper Pyrophosphate Content (%) | 99.5-99.9 | 97.0-99.5 | 99.8-99.95 | 98.0-99.8 | 99.2-99.8 | 99.9-99.98 |
| Cu₂P₂O₇ Purity (%) | 99.6-99.8 | 97.5-99.2 | 99.85-99.9 | 98.5-99.5 | 99.3-99.6 | 99.92-99.95 |
| Copper (Cu) Content (%) | 38.5-38.8 | 37.0-39.0 | 38.6-38.7 | 38.2-38.6 | 38.4-38.6 | 38.65-38.68 |
| Phosphorus (P) Content (%) | 18.8-19.0 | 18.0-19.5 | 18.9-18.95 | 18.5-18.9 | 18.7-18.9 | 18.92-18.94 |
| P₂O₅ Content (%) | 43.0-43.5 | 41.0-44.5 | 43.2-43.3 | 42.0-43.0 | 42.8-43.2 | 43.25-43.28 |
| pH (5% suspension) | 6.5-7.5 | 6.0-8.0 | 7.0-7.2 | 6.8-7.3 | 6.9-7.1 | 7.05-7.10 |
| Bulk Density (kg/m³) | 1200-1400 | 1000-1500 | 1250-1350 | 1100-1300 | 1150-1350 | 1300-1350 |
| Apparent Density (kg/m³) | 800-1200 | 700-1300 | 900-1100 | 750-1050 | 850-1150 | 950-1050 |
| Particle Size (μm) | 1-20 | 0.5-100 | 2-15 | 5-50 | 1-25 | 3-12 |
| Surface Area (m²/g) | 5-15 | 2-25 | 8-12 | 3-10 | 10-20 | 8-10 |
| Solubility in Water (g/L, 25°C) | <0.1 | <0.2 | <0.05 | <0.15 | <0.08 | <0.03 |
| Solubility in Acids | High | High | High | High | High | High |
| Decomposition Temperature (°C) | 650-680 | 640-690 | 660-670 | 650-675 | 655-675 | 665-668 |
| Thermal Stability (°C) | 200-600 | 150-650 | 250-550 | 200-600 | 300-600 | 400-500 |
| Specific Heat (J/g·°C) | 0.85-0.90 | 0.80-0.95 | 0.87-0.89 | 0.82-0.88 | 0.85-0.88 | 0.88-0.89 |
| Electrical Conductivity (S/cm) | 10⁻⁸-10⁻⁶ | 10⁻⁹-10⁻⁵ | 10⁻⁸-10⁻⁷ | 10⁻⁸-10⁻⁶ | 10⁻⁷-10⁻⁶ | 10⁻⁸-10⁻⁷ |
| Crystal Structure | Monoclinic | Monoclinic | Monoclinic | Monoclinic | Monoclinic | Monoclinic |
| Magnetic Properties | Paramagnetic | Paramagnetic | Paramagnetic | Paramagnetic | Paramagnetic | Paramagnetic |
| Refractive Index | 1.65-1.68 | 1.62-1.70 | 1.66-1.67 | 1.64-1.67 | 1.65-1.67 | 1.665-1.667 |
| Heavy Metals (ppm) | <20 | <100 | <5 | <150 | <50 | <2 |
| Iron (Fe) Content (ppm) | <30 | <150 | <10 | <200 | <80 | <5 |
| Lead (Pb) Content (ppm) | <5 | <25 | <1 | <50 | <15 | <0.5 |
| Arsenic (As) Content (ppm) | <2 | <10 | <0.5 | <20 | <8 | <0.2 |
| Nickel (Ni) Content (ppm) | <10 | <50 | <2 | <100 | <30 | <1 |
| Zinc (Zn) Content (ppm) | <20 | <100 | <5 | <200 | <50 | <2 |
| Chloride (Cl) Content (ppm) | <50 | <200 | <20 | <300 | <100 | <10 |
| Sulfate (SO₄) Content (ppm) | <100 | <500 | <50 | <800 | <200 | <25 |
| Insoluble Matter (%) | <0.05 | <0.2 | <0.02 | <0.5 | <0.1 | <0.01 |
| Color | Blue-Green | Blue-Green | Light Blue | Blue-Green | Blue-Green | Light Blue |
| Odor | Odorless | Odorless | Odorless | Odorless | Odorless | Odorless |
| Appearance | Crystalline | Powder/Granular | Fine Crystals | Crystals | Fine Powder | Fine Crystals |
| Hygroscopicity | Low | Moderate | Low | Low | Low | Very Low |
| Chemical Stability | Excellent | Good | Excellent | Good | Excellent | Excellent |
| Storage Life (months) | 36 | 24 | 48 | 30 | 36 | 60 |
| Storage Temperature (°C) | 10-30 | 5-35 | 15-25 | 5-30 | 10-30 | 18-25 |
| Relative Humidity Limit (%) | <70 | <80 | <60 | <75 | <70 | <55 |
| Corrosivity | Low | Low | Very Low | Low | Low | Very Low |
| Environmental Impact | Low | Moderate | Low | Low | Low | Minimal |
| Biodegradability | Limited | Limited | Limited | Limited | Limited | Limited |
| Toxicity Level | Moderate | Moderate | Low | Moderate | Moderate | Low |
| Packaging | 25kg Drums | 500kg Totes | 5kg Containers | 100kg Bags | 10kg Drums | 1kg Bottles |
| Regulatory Status | Electronics | Industrial | USP Grade | Ceramic | Catalyst | Laboratory |
Available Product Types:
- Electronics Grade for circuit board and electroplating applications
- Industrial Grade for general manufacturing and processing operations
- Pharmaceutical Grade for drug synthesis and medical applications
- Ceramic Grade for ceramic manufacturing and glazing applications
- Catalyst Grade for chemical reaction enhancement applications
- Analytical Grade for laboratory and research applications
- Technical Grade for specialized industrial requirements
- High Purity Grade for critical electronics processes
- Electroplating Grade for copper deposition systems
- Pigment Grade for colorant and coating applications
- Custom Formulations for specific industrial requirements
- Research Grade for scientific and development applications
- Specialty Grade for advanced technology applications
- Reagent Grade for analytical chemistry applications
- Custom Specifications for unique processing requirements
Specialized Application Solutions:
- Electroplating enhancement and copper deposition optimization
- Electronics manufacturing and circuit board processing applications
- Ceramic manufacturing and glazing system optimization
- Catalyst preparation and chemical reaction enhancement
- Quality control method development and analytical procedures
- Regulatory compliance assistance and safety assessment
- Custom application development and performance testing services
- Technical consultation and process optimization
- Environmental impact consulting and sustainable practices
Electronics Applications
Electroplating Operations Electronics manufacturers utilize Electronics Grade Dicopper Pyrophosphate as premium copper source for circuit board plating, component coating, and electronic enhancement. Dicopper pyrophosphate provides superior copper deposition compared to alternative copper sources, with electroplating specialists employing dicopper pyrophosphate for enhanced coating quality, effective metal deposition, and manufacturing optimization providing superior electronic components, excellent coating uniformity, and outstanding electronics manufacturing results with complete electrical performance optimization.
Circuit Board Manufacturing PCB manufacturers use specialized Dicopper Pyrophosphate formulations for copper trace formation, via plating, and electrical enhancement. Electronics specialists employ dicopper pyrophosphate for enhanced conductivity, effective copper deposition, and production optimization providing improved circuit quality, enhanced electrical performance, and superior PCB manufacturing performance.
Component Coating Electronic component manufacturers utilize Dicopper Pyrophosphate for component plating, surface treatment, and performance enhancement. Electronics engineers employ dicopper pyrophosphate for enhanced surface properties, improved electrical characteristics, and manufacturing optimization providing superior electronic components, enhanced performance reliability, and outstanding electronics production results.
Connector Production Connector manufacturers use Electronics Grade Dicopper Pyrophosphate for contact plating, conductivity enhancement, and quality improvement. Electronics specialists employ dicopper pyrophosphate for enhanced electrical contact, improved connectivity performance, and manufacturing optimization providing exceptional connector quality, enhanced electrical reliability, and superior connector manufacturing performance.
Ceramic Applications
Ceramic Manufacturing Ceramic companies utilize Ceramic Grade Dicopper Pyrophosphate for glaze formulation, color development, and ceramic enhancement. Ceramic engineers employ dicopper pyrophosphate for enhanced coloration, improved ceramic properties, and manufacturing optimization providing superior ceramic products, enhanced aesthetic quality, and outstanding ceramic manufacturing results.
Glaze Production Ceramic glaze manufacturers use specialized Dicopper Pyrophosphate for color development, thermal stability, and glaze enhancement. Ceramic specialists employ dicopper pyrophosphate for enhanced color intensity, improved thermal performance, and production optimization providing exceptional glaze results, enhanced ceramic finishing, and superior glaze manufacturing performance.
Technical Ceramics Advanced ceramic producers utilize Dicopper Pyrophosphate for specialized applications, property enhancement, and performance improvement. Technical ceramic engineers employ dicopper pyrophosphate for enhanced material properties, improved performance characteristics, and manufacturing optimization providing superior technical ceramics, enhanced industrial performance, and outstanding advanced ceramic results.
Pottery Applications Pottery manufacturers use Ceramic Grade Dicopper Pyrophosphate for artistic glazing, color effects, and pottery enhancement. Pottery specialists employ dicopper pyrophosphate for enhanced artistic effects, improved glaze performance, and production optimization providing exceptional pottery results, enhanced artistic quality, and superior pottery manufacturing performance.
Industrial Applications
Catalyst Manufacturing Chemical companies utilize Catalyst Grade Dicopper Pyrophosphate for catalyst preparation, reaction enhancement, and chemical manufacturing improvement. Chemical engineers employ dicopper pyrophosphate for enhanced catalytic activity, improved reaction efficiency, and process optimization providing superior chemical reactions, enhanced production efficiency, and outstanding chemical manufacturing results.
Pigment Production Pigment manufacturers use specialized Dicopper Pyrophosphate for colorant synthesis, pigment development, and color enhancement. Pigment engineers employ dicopper pyrophosphate for enhanced color properties, improved pigment stability, and manufacturing optimization providing exceptional pigment results, enhanced color quality, and superior pigment manufacturing performance.
Flame Retardant Systems Fire protection manufacturers utilize Dicopper Pyrophosphate for flame suppression, safety enhancement, and fire protection improvement. Fire safety engineers employ dicopper pyrophosphate for enhanced fire resistance, improved thermal stability, and protection optimization providing superior fire safety results, enhanced protection efficiency, and outstanding flame retardant performance.
Chemical Processing Chemical facilities use Industrial Grade Dicopper Pyrophosphate for copper source applications, chemical synthesis, and manufacturing enhancement. Process engineers employ dicopper pyrophosphate for enhanced chemical reactions, improved copper availability, and process optimization providing exceptional chemical processing results, enhanced production efficiency, and superior chemical manufacturing performance.
Pharmaceutical Applications
Drug Synthesis Pharmaceutical manufacturers utilize Pharmaceutical Grade Dicopper Pyrophosphate for copper-catalyzed reactions, pharmaceutical synthesis, and drug manufacturing enhancement. Pharmaceutical chemists employ dicopper pyrophosphate for enhanced synthesis efficiency, improved reaction selectivity, and manufacturing optimization providing superior pharmaceutical production, enhanced drug quality, and outstanding pharmaceutical manufacturing results.
Nutritional Supplements Supplement companies use specialized Dicopper Pyrophosphate for copper supplementation, mineral formulations, and health product enhancement. Pharmaceutical specialists employ dicopper pyrophosphate for enhanced bioavailability, improved supplement stability, and formulation optimization providing exceptional nutritional supplements, enhanced health benefits, and superior supplement manufacturing performance.
Research Applications Pharmaceutical research facilities utilize Dicopper Pyrophosphate for compound development, reaction studies, and pharmaceutical improvement. Research scientists employ dicopper pyrophosphate for enhanced research capabilities, improved experimental results, and development optimization providing superior pharmaceutical research, enhanced drug development, and outstanding research performance.
Quality Control Pharmaceutical laboratories use Analytical Grade Dicopper Pyrophosphate for testing procedures, method development, and quality enhancement. Pharmaceutical analysts employ dicopper pyrophosphate for enhanced analytical accuracy, improved testing reliability, and quality optimization providing exceptional analytical results, enhanced quality control, and superior pharmaceutical testing performance.
Specialized Processing
Laboratory Applications Research institutions use Analytical Grade Dicopper Pyrophosphate for copper analysis, research procedures, and scientific studies. Laboratory technicians employ dicopper pyrophosphate for accurate analysis, reliable testing, and research enhancement providing exceptional laboratory results, enhanced research quality, and superior analytical performance.
Metal Treatment Metal processing companies utilize Dicopper Pyrophosphate for surface treatment, corrosion protection, and metal enhancement. Metal treatment specialists employ dicopper pyrophosphate for enhanced surface properties, improved corrosion resistance, and processing optimization providing superior metal treatment results, enhanced product durability, and outstanding metal processing performance.
Glass Manufacturing Glass producers use specialized Dicopper Pyrophosphate for glass coloration, optical properties, and manufacturing enhancement. Glass engineers employ dicopper pyrophosphate for enhanced color development, improved optical characteristics, and production optimization providing exceptional glass results, enhanced optical quality, and superior glass manufacturing performance.
Textile Processing Textile manufacturers utilize Dicopper Pyrophosphate for dyeing operations, color development, and textile enhancement. Textile engineers employ dicopper pyrophosphate for enhanced color fastness, improved dyeing efficiency, and manufacturing optimization providing superior textile results, enhanced fabric quality, and outstanding textile manufacturing performance.
Process Optimization
Application Methods Process engineers utilize Dicopper Pyrophosphate for optimized application systems, delivery enhancement, and processing improvement. Application specialists employ dicopper pyrophosphate for efficient incorporation, cost optimization, and performance enhancement providing superior application results, enhanced cost efficiency, and outstanding processing optimization.
Quality Control Quality assurance teams use Dicopper Pyrophosphate systems for performance monitoring, quality assessment, and optimization tracking. Quality specialists employ dicopper pyrophosphate for continuous improvement, performance evaluation, and quality enhancement providing exceptional monitoring results, enhanced quality control, and superior performance optimization.
Environmental Management Environmental engineers utilize Dicopper Pyrophosphate for environmental protection, waste management, and responsible operations. Environmental specialists employ dicopper pyrophosphate for controlled applications, reduced environmental impact, and sustainable processing providing effective environmental protection, enhanced sustainability, and superior environmental performance.
Cost Optimization Operations managers use Dicopper Pyrophosphate systems for cost control, efficiency improvement, and economic optimization. Cost optimization specialists employ dicopper pyrophosphate for reduced expenses, enhanced efficiency, and economic enhancement providing exceptional cost results, enhanced economic performance, and superior operational optimization.
Quality Control & Testing
Comprehensive Quality Assurance Every production batch undergoes extensive testing to ensure compliance with dicopper pyrophosphate standards, industrial requirements, electronics grade specifications, and international quality standards. Our quality control laboratory employs advanced analytical techniques including copper content analysis, phosphorus determination, and comprehensive performance evaluation.
Quality assurance procedures include:
- Dicopper pyrophosphate content determination using gravimetric analysis
- Copper content analysis using atomic absorption spectroscopy
- Phosphorus content testing using ICP-OES methods
- P₂O₅ content measurement using gravimetric techniques
- pH measurement using calibrated electrode systems
- Bulk density determination using standard test methods
- Particle size analysis using laser diffraction
- Surface area measurement using BET method
- Heavy metals analysis using ICP spectroscopy
- Thermal analysis using thermogravimetric methods
- Electrochemical properties testing using voltammetry
- Performance validation using application-specific tests
- Purity assessment using multiple analytical techniques
- Trace impurity analysis using advanced instrumental methods
- Packaging integrity testing using standard procedures
Storage & Handling Procedures Implement proper storage conditions including dry environments, protection from moisture exposure, appropriate sealed packaging materials, segregation from incompatible substances, and comprehensive safety procedures for maintaining Dicopper Pyrophosphate quality and ensuring safe handling throughout storage and application periods.
Environmental & Regulatory Compliance
Electronics Standards Electronics Grade Dicopper Pyrophosphate complies with IPC standards, electronics manufacturing requirements, and quality specifications ensuring safe use in electronics applications with established electronics safety protocols and comprehensive safety assessments for electronics manufacturing operations.
Pharmaceutical Standards Pharmaceutical Grade products adhere to USP monograph requirements, pharmaceutical manufacturing standards, and quality specifications ensuring appropriate use in pharmaceutical applications with established pharmaceutical protocols and regulatory compliance for drug manufacturing operations.
Ceramic Standards Ceramic Grade products meet ceramic industry standards, manufacturing requirements, and quality specifications ensuring proper use in ceramic applications with established ceramic protocols and performance standards for ceramic manufacturing operations.
Environmental Safety Dicopper Pyrophosphate demonstrates controlled environmental impact with proper disposal procedures, responsible usage guidelines, and environmental management procedures ensuring sustainable operations with comprehensive environmental safety measures and copper management protocols.
Performance Advantages & Benefits
✔ Premium Electroplating Agent – Superior copper deposition and electronics manufacturing performance
✔ Outstanding Catalyst – Excellent chemical reaction enhancement and industrial effectiveness
✔ Ceramic Quality – Exceptional color development and ceramic manufacturing compatibility
✔ Electronics Proven – Superior circuit board manufacturing and copper plating applications
✔ Multiple Applications – Suitable for electronics, ceramic, pharmaceutical, and industrial processing
✔ Processing Excellence – Superior chemical properties and industrial compatibility
✔ Quality Consistency – Uniform performance across production batches
✔ Safety Profile – Proven safety and handling characteristics with proper protocols
✔ Environmental Management – Controlled environmental impact with proper disposal procedures
✔ Regulatory Compliance – Approved for electronics, pharmaceutical, and ceramic applications
✔ Cost Effectiveness – Economic solution with superior performance characteristics
✔ Thermal Properties – Exceptional thermal stability and decomposition control
✔ Global Availability – Reliable supply chains and worldwide distribution networks
✔ Technical Versatility – Multiple grade options and processing compatibility
✔ Technical Support – Complete application guidance and optimization services
Our Dicopper Pyrophosphate products represent industry-leading standards in industrial chemical and electronics manufacturing technology, specifically manufactured for demanding electroplating operations, electronics manufacturing applications, ceramic projects, and specialized chemical processing requiring exceptional copper delivery properties, reliable performance, and comprehensive regulatory compliance. We provide complete technical support, application guidance, and performance consultation to ensure optimal results across your specialized electronics, ceramic, pharmaceutical, or industrial applications.
For detailed specifications, technical data sheets, or application-specific recommendations, contact our specialized dicopper pyrophosphate division. We offer complete support including product selection, application optimization, performance testing, regulatory guidance, quality assurance, and technical assistance to maximize effectiveness in your electronics, ceramic, pharmaceutical, or industrial applications.
For more information about our products, feel free to Contact Us today.
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