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Nano Copper – Technical Data

Revolutionary Nano-Scale Copper Technology for Enhanced Plant Health
Revolutionary Nano-Scale Technology
Advanced Formulation
0.80% copper content with 5.00% chelating agents
Enhanced Bioavailability
Nano-scale particles (20-50 nm) for superior plant uptake
Chelated Form
Superior stability and plant availability compared to conventional copper fertilizers
FCO Approved
Government-certified for agricultural use in India
Key Performance Benefits
Metabolic Enhancement
Boosts crop metabolism and overall plant vigor
Enzyme Activation
Essential cofactor for multiple enzymatic processes
Chlorophyll Production
Critical role in photosynthesis efficiency
Disease Resistance
Strengthens natural plant defense mechanisms
Yield Optimization
Proven yield increases across multiple crop types
Sustainable Agriculture Solution
Reduced Application Rates: Higher efficiency requires smaller quantities
Resource Efficiency: Cost-effective solution for micronutrient management
Environmental Safety: Minimized leaching and environmental impact
Precision Agriculture: Compatible with modern farming technologies
Physical & Chemical Properties
Parameter Specification
Copper Content0.80% w/w (minimum)
Chelating Agents5.00% w/w
pH Range3.0 - 6.50
Physical FormLiquid concentrate
ColorBlue to blue-green
Particle Size 20-50 nanometers
SolubilityCompletely water-soluble
Specific Gravity1.1 - 1.3
StabilityStable under normal storage conditions
Formulation Technology
Nano-encapsulation
Advanced technology for controlled release
Chelation Matrix
Enhanced stability and plant availability
Biocompatible Carriers
Safe for plant and soil microorganisms
Anti-settling Formula
Maintains uniform distribution
Storage & Handling
Storage Conditions

• Storage Temperature: 5°C to 35°C
• Shelf Life: 24 months from manufacturing date
• Store in cool, dry place away from direct sunlight

Container & Stability

• Container Material: HDPE bottles with tamper-evident caps
• Stability: No degradation under recommended storage conditions

Multi-Modal Plant Enhancement
1. Enzymatic Activation

• Serves as cofactor for oxidase and oxygenase enzymes
• Essential for plastocyanin function in photosynthetic electron transport
• Activates superoxide dismutase for oxidative stress protection

2. Chlorophyll & Photosynthesis Enhancement

• Critical component in chloroplast electron transport chain
• Enhances photosynthetic efficiency and carbon fixation
• Improves light energy conversion to chemical energy

3. Metabolic Processes

• Essential for carbohydrate and protein metabolism
• Required for lignin biosynthesis and cell wall formation
• Facilitates hormone synthesis and regulation

4. Reproductive Development

• Critical for pollen formation and viability
• Essential for successful fertilization and seed set
• Improves grain filling and quality

5. Disease Resistance

• Strengthens cell wall structure through lignification
• Enhances natural antifungal compounds production
• Improves overall plant immunity

Nano-Technology Advantages
Enhanced Penetration
Nano-particles easily penetrate leaf cuticles and stomata
Targeted Delivery
Precise delivery to cellular sites of action
Reduced Losses
Minimal leaching and volatilization
Sustained Release
Gradual release ensures prolonged availability
Dosage & Concentration
Application MethodDilution RateApplication Volume
Foliar Spray1 ml per liter of water500-750 L/hectare
Drip Irrigation100 ml per 1000 L waterAs per irrigation schedule
Boom Sprayer100 ml per 100 L water300-500 L/hectare
Application Timing
Vegetative Stage
2-3 weeks after emergence/transplanting
Pre-flowering
7-10 days before flower initiation
Grain Filling
During early grain development stage
Stress Conditions
Immediately after stress identification
Crop-Specific Recommendations
Cereals (Wheat, Rice, Maize, Barley)

Application: 2-3 foliar sprays per season

Timing: Tillering, booting, and grain filling stages

Expected Benefit: 8-15% yield increase, improved grain quality

Vegetables (Tomato, Potato, Onion, Carrot)

Application: 3-4 applications per crop cycle

Timing: Early vegetative, flowering, and fruit development

Expected Benefit: Enhanced fruit quality, disease resistance

Fruits (Apple, Citrus, Grapes)

Application: 2-3 applications per season

Timing: Bud break, post-bloom, and fruit development

Expected Benefit: Improved fruit color, shelf life, and quality

Pulses & Oilseeds

Application: 2 applications per season

Timing: Branching and pod formation stages

Expected Benefit: Better seed filling and oil content

Tank Mixing & Application Best Practices
Tank Mixing Compatibility
Compatible with: Nano Urea Plus, Nano DAP, most fungicides and insecticides
Avoid mixing with: Strong alkaline solutions (pH >8.0)
Testing required: For new combinations not previously tested
Application Best Practices

• Apply during cooler parts of the day (early morning or evening)
• Ensure complete spray coverage of plant surfaces
• Use clean water (pH 6.0-7.0) for dilution
• Add wetting agent if water has high surface tension
• Do not apply before expected rainfall within 4 hours

Visual Symptoms
Younger Leaves
Yellowing and chlorosis (older leaves remain green)
Reproductive Issues
Poor pollen formation and seed set
Leaf Deformation
Rolling, cupping, or twisting of leaf margins
Stem Problems
Soft, limp stalks and dieback of growing points
Growth Abnormalities
Stunted growth and excessive tillering
Crop-Specific Deficiency Symptoms
Cereals (Wheat, Barley, Oats)

• Pigtailing or whip-tailing of upper leaves
• Delayed maturity and poor grain filling
• High straw-to-grain ratio
• Aborted heads and excessive tillering

Vegetables

• Chlorotic new growth while older leaves remain green
• Poor fruit set and development
• Increased susceptibility to diseases
• Reduced shelf life of produce

Fruits

• Dieback of shoots and branches
• Poor fruit color development
• Reduced fruit size and quality
• Premature fruit drop

Soil Conditions Prone to Copper Deficiency
High Organic Matter Soils
>6% organic matter content
Heavily Limed Soils
Excessive calcium carbonate
Sandy Soils
Low clay content and poor nutrient retention
Poorly Drained Areas
Waterlogged conditions
High pH Soils
Alkaline conditions (pH >7.5)
Soil Testing Guidelines
DTPA-Extractable Copper
<0.2 ppm indicates deficiency
Tissue Testing
<4 ppm in plant tissue (critical level)
Recommended Testing
Annual soil and tissue analysis
Toxicological Profile
ParameterValueClassification
Acute Oral Toxicity>2000 mg/kg
Low toxicity
Dermal ToxicityNon-irritating
Safe for skin
Eye Irritation
Mild irritant
Use eye protection
Inhalation
Non-toxic
Safe under normal use
Systemic Toxicity
No adverse effects
At recommended doses
Environmental Safety
Soil Impact
No harmful effects on soil microorganisms
Non-target Organisms
Safe for beneficial insects and soil fauna
Water Safety
Biodegradable components, minimal groundwater impact
Bioaccumulation
No tendency for bioaccumulation in food chain
Ecotoxicological Data
Test OrganismLC50/EC50Safety Classification
Fish Toxicity>100 mg/L
Practically non-toxic
Daphnia Toxicity>100 mg/L
Safe for aquatic invertebrates
Algae Growth
No inhibition
At recommended concentrations
Earthworm Safety
No adverse effects
Safe for soil organisms
Safety Precautions & First Aid
Safety Precautions

• Wear protective clothing during application
• Use eye protection and gloves
• Avoid application during windy conditions
• Do not contaminate water sources
• Store away from children and pets

First Aid Measures
Skin Contact:
Wash with soap and water
Ingestion:
Drink water, seek medical attention if necessary
Eye Contact:
Flush with clean water for 15 minutes
Inhalation:
Move to fresh air
Registration Status
FCO Approval
Fertilizer Control Order notification (May 2024)
Registration Number
To be allocated by regulatory authority
Regulatory Classification
Micronutrient fertilizer (Liquid)
Approved Uses
Agricultural and horticultural crops
Manufacturing Standards
Compliance Standards

• GMP Compliance: Good Manufacturing Practices certified
• Quality Assurance: ISO 9001:2015 certified manufacturing
• Testing Protocols: NABL accredited laboratory testing
• Batch Tracking: Complete traceability from production to field

Labeling Compliance

• All labels comply with FCO labeling requirements
• Clear usage instructions and safety warnings
• Batch number and manufacturing date on each package
• Emergency contact information provided

Statutory Requirements
Import/Export
Complies with international trade regulations
Transportation
ADR/IMDG compliant for safe transport
Disposal
Environmentally responsible disposal guidelines
Record Keeping
Maintain application records as per regulations
Manufacturing Excellence
State-of-the-art Facilities
Modern production plants with automated systems
Batch Consistency
Rigorous quality parameters for each production batch
Quality Control
Multi-stage testing throughout production process
International Standards
Compliance with global manufacturing standards
Testing Protocols
Raw Material Testing
All inputs tested for purity and quality
Finished Product Analysis
Complete testing before release
In-process Monitoring
Continuous quality checks during production
Stability Studies
Ongoing shelf-life validation studies
Quality Parameters
ParameterSpecificationTest Method
Copper Content0.80% ± 0.05%Atomic Absorption Spectroscopy
pH3.0 - 6.50Digital pH meter
Particle Size20-50 nmDynamic Light Scattering
SolubilityCompleteVisual/Gravimetric
Heavy Metals<5 ppm totalICP-MS
Microbial Count<1000 CFU/mlPlate Count Method
Certification & Compliance
ISO 9001:2015
Quality Management System
ISO 14001:2015
Environmental Management
OHSAS 18001
Occupational Health & Safety
NABL Accreditation
Testing laboratory certification
Ongoing Research Initiatives
Formulation Optimization
Enhancing bioavailability and efficiency
Application Technology
Improving delivery mechanisms
Crop-specific Variants
Developing targeted formulations
Environmental Impact
Long-term sustainability studies
Collaborative Research
International Partnerships
Collaborations with global research institutions
University Programs
Student research and development projects
ICAR Cooperation
Joint studies with Indian agricultural research institutes
Farmer Participatory Research
Field-level validation studies
Innovation Pipeline
Next Generation Products
Advanced nano-formulations in development
Smart Delivery Systems
Technology-enabled application methods
Combination Products
Multi-micronutrient formulations
Bioenhanced Formulations
Integration with biological enhancers