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Nano Zinc Technical
Comprehensive technical specifications and performance data for IFFCO Nano Zinc fertilizer
Key Features
Advanced Nano-formulation
Zinc delivered in nanoscale particles (typically 12-15 nm) for enhanced bioavailability
Compatibility
Can be tank-mixed with Nano Urea Plus and Nano DAP
Rapid Plant Uptake
3-5x faster absorption compared to conventional zinc fertilizers
Cost-Effective
Requires significantly lower application rates (up to 75% reduction)
Foliar Application
Efficient nutrient delivery directly to plant tissues
Environmental Safety
Reduced soil accumulation and environmental impact
Unique Selling Propositions
Superior Bioavailability
Nanoscale particle size ensures optimal plant absorption
Precision Nutrition
Targeted delivery system for maximum nutrient utilization
Stress Tolerance
Enhanced plant resistance to biotic and abiotic stresses
Quality Enhancement
Improved grain zinc content for biofortification
Sustainable Agriculture
Reduced chemical load while maintaining productivity
Product Composition
Comparative performance across different crop types
| Component | Percentage (%) | Function |
|---|---|---|
| Zinc (Zn) | 1.00% | Primary micronutrient |
| Chelating Agents | 7.00% | Stability and bioavailability |
| Excipients & Stabilizers | Q.S% | Formulation stability |
Physical Properties
| Parameter | Specification |
|---|---|
| Physical State | Liquid suspension |
| Color | Clear to slightly cloudy |
| pH | 6.5 - 7.5 |
| Specific Gravity | 1.02 - 1.05 |
| Particle Size | 12-15 nanometers |
| Solubility | Complete in water |
| Shelf Life | 24 months |
Quality Standards
Manufacturing Standard
ISO 9001:2015 certified
Quality Assurance
Batch testing
Packaging
UV-resistant containers
Storage
Cool, dry place
Nano-Scale Advantages
Enhanced Surface Area
Increased reactive surface for better plant interaction
Controlled Release
Gradual nutrient release matching plant demand
Improved Penetration
Nano-particles penetrate plant cuticles more effectively
Reduced Losses
Minimal leaching and fixation in soil
Biochemical Functions
Enzyme Activation
Cofactor for 300+ enzymes including carbonic anhydrase
Protein Synthesis
Essential for protein metabolism and gene expression
Chlorophyll Formation
Supports photosynthetic efficiency
Hormone Regulation
Influences auxin production and plant growth regulators
Antioxidant Activity
Enhances plant defense mechanisms
Registration Status
Ministry of Agriculture, GOI
Registered
Fertilizer Control Order (FCO)
Compliant
Bureau of Indian Standards (BIS)
Adherent
Export Certification
Available
Safety Classifications
Toxicity
Non-toxic
Environmental Safety
Biodegradable
Worker Safety
Minimal Risk
Transport Classification
Non-hazardous
Compliance Documentation
Material Safety Data Sheet (MSDS)
Available with comprehensive safety information
Certificate of Analysis (COA)
Provided with each batch for quality assurance
Good Manufacturing Practices (GMP)
Certified facility ensuring quality standards
Traceability
Complete batch tracking system for accountability
Positive Environmental Impacts
75%
Reduced Chemical Load
Reduction in zinc fertilizer requirement
60%
Lower Carbon Footprint
Reduced transportation and storage needs
4-5x
Resource Efficiency
More efficient zinc utilization
Environmental Safety Comparison
| Parameter | Nano Zinc | Conventional ZnSO₄ |
|---|---|---|
| Soil Accumulation | Minimal | High |
| Leaching Potential | Low | Moderate-High
|
| Microbial Impact | Positive | Neutral to Negative
|
| Non-target Effects | Minimal | Moderate
|
Risk Mitigation & Monitoring
Application Guidelines
Strict adherence to recommended rates and timing
Monitoring
Regular environmental impact assessments
Training Programs
Proper application training for farmers and distributors
Research
Ongoing studies on long-term environmental effects