Zinc Nanopowder (Zn, 99.9%, 800nm) is a high-purity material with a near-micron particle size of approximately 800 nanometers (nm). Known for its exceptional chemical reactivity, electrical and thermal conductivity, and anticorrosive properties, this nanopowder is widely used in diverse industrial and scientific applications, including coatings, catalysis, and energy storage.
Key Features:
Zinc (Zn):
Zinc is a versatile metal with properties like electrical conductivity, anticorrosion, and chemical reactivity, making it suitable for multiple advanced applications.
Purity (99.9%):
The high purity level ensures consistent performance and minimizes the presence of contaminants, which is crucial for precision-demanding processes.
Particle Size (800nm):
The particle size balances ease of handling with enhanced surface properties, providing a combination of nanoscale benefits and efficient processability.
Properties:
Thermal and Electrical Conductivity:
Zinc nanopowder efficiently conducts heat and electricity, supporting applications in electronics and thermal management systems.
Anticorrosive Characteristics:
Zinc’s inherent resistance to corrosion makes it ideal for protective coatings and galvanization processes.
Chemical Reactivity:
With its high surface area, the material is reactive and suitable for catalysis and chemical synthesis applications.
Lightweight:
Its low density makes zinc nanopowder a desirable component for lightweight materials used in advanced manufacturing and aerospace industries.
Durability:
The material exhibits stability under controlled conditions, ensuring reliable performance in long-term applications.
Applications:
- Coatings and Corrosion Protection:
Zinc nanopowder is widely used in protective coatings for metals, providing long-term resistance to rust and environmental degradation. - Catalysis:
Its chemical reactivity makes it valuable in catalytic processes for industrial and environmental applications. - Energy Storage:
Zinc nanopowder is used in battery systems, including zinc-air and alkaline batteries, to enhance energy efficiency and capacity. - Electronics:
Its electrical conductivity supports applications in conductive inks, printed electronics, and other components. - Aerospace and Automotive Industries:
The lightweight and anticorrosive properties of zinc nanopowder are used in advanced composite materials and structural components. - Pharmaceuticals:
Zinc nanoparticles are explored in drug delivery systems and antimicrobial formulations due to their bioactive properties.
Handling and Safety:
Health and Safety Considerations:
Avoid inhalation, ingestion, and direct contact with skin or eyes. Use personal protective equipment (PPE) such as gloves, goggles, and masks when handling the material. Ensure proper ventilation in the workspace to reduce exposure to airborne particles.
Storage:
Store in a dry, cool, and well-ventilated area. Protect the material from air and moisture to prevent oxidation. Keep containers tightly sealed when not in use.
Precautions:
Minimize the generation of dust during handling, and ensure the disposal of waste material complies with local environmental regulations.
Summary:
Zinc Nanopowder (Zn, 99.9%, 800nm) combines high purity, excellent anticorrosive properties, and versatile functionality to meet the demands of industries such as electronics, energy storage, catalysis, and coatings. With its particle size optimized for efficient handling and performance, this material is integral to many advanced technological applications. Proper handling and storage are essential to preserve its properties and ensure optimal results in use.
| Measurement (gr) | 100 grams, 500 grams, 1000 grams |
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