Tungsten Nanoparticles Nano W Powder CAS 7440-33-7

(Tungsten Nanoparticles Nano W Powder CAS 7440-33-7)

Overview of Tungsten Nanoparticles (Nano W Powder)

Tungsten nanoparticles, commonly referred to as Nano W powder, are a form of tungsten with dimensions measured in nanometers. These particles exhibit unique physical and chemical properties due to their nanosized dimensions, making them highly valuable in various industrial and technological applications. Nano W powder offers a range of advantages, including increased surface area, enhanced reactivity, and improved mechanical properties.

Characteristics of Tungsten Nanoparticles

Enhanced Physical Properties: Tungsten nanoparticles exhibit superior hardness and strength compared to bulk tungsten, making them suitable for use in high-performance materials.

High Surface Area: Due to their nanosized dimensions, tungsten nanoparticles possess a significantly larger surface area, enhancing their reactivity and interaction with other materials.

Excellent Thermal Conductivity: Nano W powder exhibits excellent thermal conductivity, making it suitable for use in thermal management applications.

Excellent Electrical Conductivity: Tungsten nanoparticles maintain high electrical conductivity, suitable for use in electronic devices and components.

Stable Chemical Properties: Nano W powder is chemically stable, resisting corrosion and oxidation, making it suitable for use in harsh environments.

Application of Tungsten Nanoparticles

Electronics Industry: Tungsten nanoparticles are widely used in the electronics industry for their excellent electrical conductivity and thermal stability, finding applications in electronic devices, semiconductors, and interconnects.

Electronics Industry

Materials Science: Nano W powder is employed in materials science to enhance the mechanical properties of composites and alloys, improving their hardness, strength, and wear resistance.

Materials Science

Energy Storage: Tungsten nanoparticles find use in energy storage devices such as batteries and supercapacitors due to their high surface area and enhanced electrochemical properties.

Energy Storage

Catalysis: The large surface area and reactivity of Nano W powder make it an effective catalyst for various chemical reactions, including hydrogen production and organic synthesis.

Catalysis

Medical Applications: Tungsten nanoparticles are used in medical imaging due to their high atomic number, enhancing the contrast in X-ray and computed tomography (CT) scans.

Medical Applications

Company Profile

NANOTRUN(www.rboschco.com) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.

The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.

If you are looking for high-quality Tungsten Nanoparticles, please feel free to contact us or click on the needed products to send an inquiry.

Payment Term

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment Term

By sea, by air, by express, as customers request.

FAQ

Q1:

What are Tungsten Nanoparticles?

Re: Tungsten nanoparticles are extremely small particles of tungsten with dimensions measured in nanometers. These particles exhibit unique properties due to their nanosized dimensions, making them highly valuable in various applications.

Q2:

What are the main characteristics of Tungsten Nanoparticles?

Re: Tungsten nanoparticles are known for their enhanced physical properties, such as hardness and strength, high surface area, excellent thermal and electrical conductivity, and stable chemical properties.

Q3:

What are the applications of Tungsten Nanoparticles?

Re: Tungsten nanoparticles find applications in various industries, including electronics, materials science, energy storage, catalysis, and medical imaging due to their unique physical and chemical properties.

Q4:

How are Tungsten Nanoparticles produced?

Re: Tungsten nanoparticles can be produced using various methods, including physical vapor deposition, chemical vapor deposition, and liquid-phase synthesis. These methods allow for precise control over the size and shape of the particles.

Q5:

Are there any safety concerns associated with Tungsten Nanoparticles?

Re: Tungsten nanoparticles are generally considered safe, but their handling should be done with caution due to their small size and potential for inhalation. It is important to follow safety guidelines and wear protective equipment when handling these materials.