Silvia González Prolongo (Editor) Voir l'original

Graphene nanoplatelets have exceptional properties and can be used as nanoreinforcements for different types of matrices, paving the way for several industrial applications.

Silvia González Prolongo (Editor)

Numéro d'article: 71599298

Graphene Nanoplatelets

Numéro d'article: 71599298

XOF 51890

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Graphene nanoplatelets have exceptional properties and can be used as nanoreinforcements for different types of matrices, paving the way for several industrial applications.

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Ce qui se démarque

Enhanced Strength

Graphene nanoplatelets offer superior strength properties, significantly enhancing the durability and longevity of materials, making them ideal for demanding applications in various industries.

Lightweight Composition

Despite their impressive strength, graphene nanoplatelets remain extremely lightweight, allowing for innovative design possibilities without compromising on performance or ease of use.

Thermal Conductivity

These nanoplatelets provide exceptional thermal conductivity, effectively dissipating heat in electronic applications, thereby improving efficiency and longevity of devices.

Détails du produit

Item Weight

2 lbs (910 grams)

À qui est-ce destiné ?

Researchers and Scientists
Ideal for individuals involved in advanced materials research requiring in-depth knowledge of graphene nanoplatelets.
Materials Engineers
Beneficial for engineers looking to incorporate graphene into new materials for improved performance in various applications.
Students in Academia
Excellent resource for students studying nanotechnology or material science seeking comprehensive information on graphene.

General Readers
May be too technical for casual readers not familiar with materials science or nanotechnology concepts.
Casual Hobbyists
Not suitable for hobbyists seeking simple, practical applications of graphene without extensive scientific background.
Non-technical Professionals
Professionals in fields unrelated to science or engineering may find the content overly complex and less applicable.

DESCRIPTION DU PRODUIT

Graphene Nanoplatelets

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Questions et réponses des clients

question: What are Graphene Nanoplatelets?

répondre: Graphene Nanoplatelets (GNPs) are ultra-thin, two-dimensional structures made from graphene, consisting of stacked layers of graphene sheets. They possess exceptional mechanical, electrical, and thermal properties, making them ideal additives for various applications. GNPs can enhance the strength, conductivity, and thermal stability of materials, making them suitable for use in composites, coatings, and even energy storage systems, like batteries and supercapacitors.
question: How are Graphene Nanoplatelets produced?

répondre: Graphene Nanoplatelets can be produced using several methods, including mechanical exfoliation, chemical reduction of graphene oxide, and liquid-phase exfoliation. The choice of method affects the quality, size, and cost of the nanoplatelets. For example, chemical reduction can yield large quantities of GNPs with good properties, while mechanical methods might offer higher quality but in smaller amounts. The production technique is critical for ensuring the desired performance in specific applications, such as enhancing composite materials.
question: What are the applications of Graphene Nanoplatelets?

répondre: Graphene Nanoplatelets have a wide range of applications, including in the fields of electronics, energy storage, and composite materials. They are utilized in creating lighter, stronger composites used in aerospace and automotive industries. In electronics, GNPs enhance the conductivity of inks and coatings, leading to improved performance in printed electronics. Additionally, they are employed in battery and supercapacitor technologies, allowing for faster charge and discharge cycles, ultimately increasing efficiency.
question: Are Graphene Nanoplatelets environmentally friendly?

répondre: Graphene Nanoplatelets are considered more environmentally friendly than some traditional materials used in industry. As GNPs are derived from carbon and are generally inert, they can be incorporated into products without significantly impacting environmental safety. However, the sustainability of their production process can vary based on the sources of carbon used and the methods employed. Using greener methods to synthesize GNPs can further enhance their eco-friendliness, making them a suitable choice for sustainable development.
question: Can Graphene Nanoplatelets conduct electricity?

répondre: Yes, Graphene Nanoplatelets are excellent electrical conductors due to the unique properties of graphene. Their high surface area allows for better electron transport, making them especially valuable in applications like conductive coatings, sensors, and electronic devices. When added to polymers, GNPs improve the overall conductivity, enabling their use in various electronic applications, from flexible electronics to energy-efficient lighting solutions, benefiting industries focused on advanced electrical materials.
question: What is the difference between Graphene and Graphene Nanoplatelets?

répondre: The main difference between Graphene and Graphene Nanoplatelets lies in their structure. Graphene is a single layer of carbon atoms arranged in a hexagonal lattice, while Graphene Nanoplatelets consist of multiple layers of graphene stacked together. This difference affects their properties; for instance, while pure graphene exhibits superior electrical and thermal conductivities, GNPs can provide enhanced mechanical strength and other beneficial characteristics in composite materials, making them suitable for diverse applications.
question: How do Graphene Nanoplatelets improve material properties?

répondre: Graphene Nanoplatelets enhance the properties of materials primarily through their unique mechanical, thermal, and electrical attributes. When incorporated into polymers or metals, they can significantly increase tensile strength, reduce weight, and improve thermal conductivity. This results in products that are not only lighter and stronger but also able to withstand higher temperatures. Examples include lightweight automotive parts or high-performance sports equipment that benefit from increased durability while maintaining functionality.
question: Can Graphene Nanoplatelets be used in medical applications?

répondre: Graphene Nanoplatelets show potential for various medical applications due to their biocompatibility and unique properties. They are being researched for use in drug delivery systems, biosensors, and even tissue engineering. GNPs can facilitate the targeted delivery of drugs to specific cells, minimizing side effects and enhancing therapeutic effects. Moreover, their electrical properties support the development of advanced biosensors for real-time monitoring of biological processes, opening new frontiers in healthcare technology.
question: What are the safety concerns associated with Graphene Nanoplatelets?

répondre: While Graphene Nanoplatelets have many beneficial properties, there are some safety concerns to consider. Studies suggest that inhalation or prolonged exposure to graphene materials could pose health risks, emphasizing the need for proper handling and safety protocols in industrial applications. Moreover, understanding the environmental impact of GNPs is crucial as they scale in production and usage. Ongoing research aims to clarify these concerns and ensure safety while harnessing their benefits in various fields.
question: Where can I buy Graphene Nanoplatelets in Burkina Faso?

répondre: You can buy Graphene Nanoplatelets in Burkina Faso on Ubuy. They offer a variety of high-quality Graphene Nanoplatelet products to suit your needs, whether you're a researcher, manufacturer, or looking for materials for DIY projects. Ubuy provides detailed product descriptions, enabling you to compare different options and make informed choices. Visiting their site will allow you to explore the assortment of GNP options available, ensuring you find the right product for your applications.

Silvia González Prolongo (Editor) Concrete Editorial Review

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Avantages

Exceptional thermal conductivity
High strength-to-weight ratio
Environmentally friendly material
Versatile applications in various industries
Enhances material durability

Les inconvénients

Limited availability in some markets

Historique des prix du produit

Informations importantes

Limitations : Pour les produits expédiés à l'international, veuillez noter que toute garantie du fabricant peut ne pas être valide ; les options de service du fabricant peuvent ne pas être disponibles ; les manuels, instructions et avertissements de sécurité des produits peuvent ne pas être dans les langues du pays de destination ; les produits (et les matériaux qui les accompagnent) peuvent ne pas être conçus conformément aux normes, spécifications et exigences d'étiquetage du pays de destination ; et les produits peuvent ne pas être conformes à la tension et aux autres normes électriques du pays de destination (nécessitant l'utilisation d'un adaptateur ou d'un convertisseur le cas échéant). Il incombe au destinataire de s'assurer que le produit peut être importé légalement dans le pays de destination. En cas de commande auprès d'Ubuy ou de ses filiales, le destinataire est l'importateur officiel et doit se conformer à toutes les lois et réglementations du pays de destination.
Tous les produits listés sur Ubuy ne sont pas à vendre, Ubuy étant un moteur de recherche mondial. Les produits sont soumis aux réglementations en matière d'exportation et de commerce.

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Caractéristiques et avantages

Graphene nanoplatelets have exceptional properties
They can be used as nanoreinforcements for different matrices
They have several industrial applications such as energy production and barrier coatings.

Graphene Nanoplatelets

XOF 51890

Livraison rapide

Retour gratuit*

Emballage sécurisé

Produits 100 % originaux

Conformité PCI DSS

Certifié ISO 27001

Ce qui se démarque

Détails du produit

À qui est-ce destiné ?

DESCRIPTION DU PRODUIT

Questions et réponses des clients

Silvia González Prolongo (Editor) Concrete Editorial Review

Avis et évaluations clients

Donnez votre avis sur ce produit

Avantages

Les inconvénients

Historique des prix du produit

Informations importantes

XOF 51890

Caractéristiques et avantages

Livraison
rapide

Retour
gratuit^*