Research Grade Graphene Nanoplatelets with Thickness 1-5nm(1 Gram)
GHS 1725
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This graphene nanoplate is an essential material for improving conductivity and mechanical strength in various applications, including new energy batteries, antistatic materials, and aerospace components.
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What Stands Out
Product Details
- Product name: Graphene nanoplates, Appearance: Black Powder
- Diameter: 1-3um, Thickenss: 1-5nm
- Conductivity: 500-1000 S/cm
- It can be used in New energy battery, antistatic, heat elimination, improve mechanical strength, conductive composites, coating modifiers, basic physics research, graphene transistors, electronic chips, antenna materials, aerospace etc.
Product Technical Details
| Package Dimensions | 5.2 x 2.64 x 1.1 inches |
| Item Weight | 0.563 ounces |
| Manufacturer | XFNANO |
What's in the box
powder
Who Should Buy?
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Material Scientists
Ideal for researchers focusing on nanomaterials, particularly those studying the properties and applications of graphene.
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Nanoelectronics Developers
Perfect for engineers working on next-generation electronic devices requiring high conductivity and strength from graphene materials.
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Advanced Researchers
Comprehensive support for academic and industrial researchers looking to explore innovative applications using high-quality graphene.
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Casual Users
Not suitable for hobbyists or non-professionals who lack the equipment to handle and study graphene properly.
Product Description
Customer Questions & Answers
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Question:
What are graphene nanoplatelets, and what are their properties?
Answer: Graphene nanoplatelets are ultra-thin sheets of graphene that possess unique electrical, thermal, and mechanical properties. They are known for their high aspect ratio, which makes them beneficial in various applications, including advanced composites, conductive materials, and energy storage. Their thickness of 1-5 nm provides an ideal balance between flexibility and strength, allowing them to enhance the performance of polymers and metals effectively. -
Question:
How can research grade graphene nanoplatelets be utilized in composites?
Answer: Research grade graphene nanoplatelets are often incorporated into composite materials to improve mechanical strength and thermal conductivity. By adding just a small amount of these nanoplatelets to polymers, manufacturers can create products that are significantly stronger, lighter, and more heat-resistant. This makes them particularly valuable in industries such as aerospace, automotive, and construction, where performance and durability are critical. -
Question:
Are there specific applications for graphene nanoplatelets in electronics?
Answer: Yes, graphene nanoplatelets have significant applications in the electronics sector. Their excellent electrical conductivity makes them ideal for use in transparent conductive films, capacitors, and batteries. Integrating nanoplatelets into electronic devices can lead to increased efficiency and lighter designs. For instance, they can enhance the performance of flexible electronic devices by improving charge storage capacities and reducing resistance. -
Question:
What safety precautions should be taken when handling graphene nanoplatelets?
Answer: When handling graphene nanoplatelets, it’s essential to use appropriate personal protective equipment, such as gloves and masks, to avoid inhalation or skin contact. While graphene is considered non-toxic, the fine particulate nature can pose respiratory risks. Working in well-ventilated areas and following safety data sheets provided with the material can ensure safe handling practices in laboratories or manufacturing environments. -
Question:
What distinguishes research grade graphene nanoplatelets from other grades?
Answer: Research grade graphene nanoplatelets are characterized by their high purity and consistent quality, making them suitable for academic and industrial research. Unlike lower grades, which may contain impurities or inconsistent sizes, research grade materials offer reproducible results, which is crucial for experiments and product development. This consistency is essential for fields such as materials science and nanotechnology, where precise parameters are needed. -
Question:
Can graphene nanoplatelets be used in energy storage solutions?
Answer: Absolutely, graphene nanoplatelets are increasingly used in energy storage applications, particularly in supercapacitors and batteries. Their high surface area allows for enhanced charge retention and faster charge/discharge cycles. This makes graphene-loaded devices more efficient and capable of storing more energy compared to conventional materials. The integration of these nanoplatelets can lead to advances in the development of next-generation energy storage technologies. -
Question:
How do graphene nanoplatelets improve thermal management in materials?
Answer: Graphene nanoplatelets excel in thermal management due to their high thermal conductivity. By incorporating them into thermal interface materials or electronic packaging, manufacturers can effectively dissipate heat, reducing the risk of overheating. This is particularly beneficial for electronics that generate substantial heat during operation, leading to greater reliability and longevity of devices in high-performance applications. -
Question:
What is the shelf life of graphene nanoplatelets?
Answer: The shelf life of graphene nanoplatelets primarily depends on storage conditions. When stored in a cool, dry place, sealed from moisture and contamination, they can maintain their properties for an extended period. However, exposure to air or humidity may lead to agglomeration or degradation. For optimal performance in research and application, it's recommended to use them within a reasonable timeframe post-manufacture, adhering to storage guidelines provided. -
Question:
How are graphene nanoplatelets manufactured?
Answer: Graphene nanoplatelets are typically produced using methods such as mechanical exfoliation, chemical vapor deposition, or liquid-phase exfoliation. Each method offers distinct advantages, such as scalability and purity. The choice of production technique affects qualities like size, layer count, and surface chemistry. Understanding the manufacturing process can help buyers select the right grade for their specific applications, whether for research or industrial use. -
Question:
Where can I buy Research Grade Graphene Nanoplatelets with Thickness 1-5nm 1 Gram?
Answer: You can purchase Research Grade Graphene Nanoplatelets with Thickness 1-5nm 1 Gram from Ubuy. Ubuy provides a convenient platform to access a variety of advanced materials, ensuring you receive high-quality graphene nanoplatelets for your research and development needs. Their user-friendly website makes it easy to find and order the specific products you require.
XFNANO Analytical Reagents Editorial Review
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GHS 1725
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Features & Benefits
- Improves conductivity and mechanical strength
- Ideal for new energy batteries and antistatic materials
- Suitable for aerospace components and coating modifiers
- Versatile use in electronic chips and conductive composites
- Enhances heat elimination and basic physics research
- Black powder appearance with 1-3um diameter and 1-5nm thickness
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