MOQ: | 10Tons |
Price: | Please contact customer service |
Standard Packaging: | Bagged |
Delivery Period: | About six weeks |
Payment Method: | T/T |
Supply Capacity: | 100,000 tons per year |
Sodium Sulfide: The Versatile Reducing Powerhouse
Molecular Identity
Sodium Sulfide stands as a cornerstone inorganic compound in industrial chemistry, embodying potent reducing capabilities and unique sulfur transfer properties. This versatile chemical serves as a workhorse across multiple sectors, from traditional manufacturing to cutting-edge material synthesis.
Core Characteristics
Chemical Nature: Strong inorganic reductant
Reaction Profile: Active sulfur donor and electron transfer agent
Physical Forms: Flake, crystalline, and solution formulations
Handling Requirements: Air-sensitive, moisture-reactive
Next-Generation Application Frontiers
1. Advanced Materials Synthesis
Quantum Dot Precursor: Serves as controlled sulfur source in synthesis of metal sulfide nanomaterials with precise size distribution
Conductive Polymer Dopant: Enhances electrical conductivity in polyaniline and polypyrrole systems through redox modification
Solid Electrolyte Development: Key component in sodium-sulfur battery systems and sulfide-based solid-state electrolytes
2. Environmental Technology Applications
Heavy Metal Scavenger: Advanced precipitation systems for ppm-level removal of mercury, cadmium, and arsenic from industrial effluents
Acid Gas Treatment: Regenerative absorbent for low-concentration SO₂ removal from flue gases
Soil Remediation: Chemical reduction agent for detoxifying chromium(VI) contaminated sites
3. Precision Chemical Manufacturing
Pharmaceutical Intermediate: Selective reducing agent in synthesis of sulfur-containing drug molecules
Fine Chemical Production: Essential reagent in manufacturing dyes, pigments, and specialty surfactants
Polymer Modification: Cross-linking agent and vulcanization accelerator in specialty rubber formulations
4. Energy and Resource Recovery
Spent Catalyst Regeneration: Metal recovery agent for rejuvenating deactivated hydroprocessing catalysts
Battery Recycling: Reductant in hydrometallurgical recovery of valuable metals from lithium-ion batteries
Waste Valorization: Converting industrial by-products into valuable sulfide-based materials
Technological Evolution & Process Innovation
Manufacturing Excellence
Continuous process reactors with real-time sulfide concentration monitoring
Advanced crystallization control for tailored particle morphology
Integrated impurity removal systems achieving >99.5% purity
Safety and Handling Breakthroughs
Encapsulated pellet forms minimizing dust and oxidation risks
Smart packaging with oxygen scavengers for extended shelf life
Automated handling systems preventing human exposure
Environmental Performance
Closed-loop manufacturing with near-zero liquid discharge
By-product utilization converting waste streams to commercial grades
Carbon footprint reduction through energy-efficient process design
Quality Advancement
Spectroscopic quality verification ensuring batch consistency
Customized formulations for specific application requirements
Digital twin technology for process optimization
Performance Specifications
Advanced Quality Metrics
Active Sulfide Content: 30-62% (customizable)
Heavy Metal Impurities: <5 ppm total
Oxidation Resistance: Enhanced stabilized grades available
Particle Size Distribution: 0.1-5.0 mm (tailored)
Physical Properties
Bulk Density: 0.8-1.2 g/cm³ (adjustable)
Solubility Profile: Instant to controlled release formulations
Thermal Stability: Up to 500°C in inert atmosphere
Technical Support Services
Application development laboratories
Process integration consulting
Custom chemical engineering solutions
Regulatory compliance guidance
Global Standards Compliance
REACH registered
ISO 9001:2015 certified manufacturing
Kosher and Halal certifications available
Meets international pharmacopeia standards
This comprehensive profile positions sodium sulfide as a sophisticated chemical tool driving innovation across environmental technology, advanced materials, and sustainable manufacturing sectors, while maintaining its fundamental role in traditional industrial processes.