EMI shielding

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Discover the applications of graphene in EMI shielding materials. Explore how the unique properties of this 2D material can be utilized to improve the electromagnetic interference shielding effectiveness of materials. Learn about the potential of graphene in improving the durability, lightweight, and flexibility of EMI shielding materials. Stay updated on the latest research and developments in the application of graphene in EMI shielding materials and unlock new possibilities for advanced materials with superior properties.

Electromagnetic interference (EMI) is a common problem in modern electronics and telecommunications, leading to issues like signal loss, noise, and malfunction. Graphene, with its exceptional electrical conductivity and unique structure, has emerged as a promising material for EMI shielding applications. In this text, we will explore the potential of graphene-based EMI shielding solutions and their current and future applications in various industries.

Protect your technology with the power of graphene: EMI shielding at its finest!

Graphene applications in emi shielding materials​

Get ready to explore a range of cutting-edge technologies that rely on graphene for superior EMI shielding. From aerospace to consumer electronics, explore the diverse applications of EMI shielding using graphene. Here are some examples of EMI shielding applications of graphene:

Emi shielding graphene composites

Graphene-based composites in the construction of aircraft and other aerospace vehicles to provide EMI shielding and protect against lightning strikes.

Emi shielding graphene coatings

Graphene-based coatings for electronic devices, such as smartphones and tablets, to provide EMI shielding and protection against electromagnetic radiation.
Graphene-based coatings for medical implants and devices to provide EMI shielding and prevent interference with nearby electronic equipment.

Emi shielding graphene films or sheets

Graphene-based films or sheets for use in electronic components, such as circuit boards and antennas, to provide EMI shielding and reduce interference.

Emi shielding graphene fabrics and clothing

Graphene-based fabrics and clothing for use in military and defense applications to provide EMI shielding and protect against electromagnetic pulses and other forms of interference.

Graphene has shown great potential for EMI shielding applications due to its unique properties, such as high electrical conductivity and flexibility, which make it an attractive alternative to traditional shielding materials. Graphene offers exciting solutions for the emi shielding sector, and its potential is still being explored by scientists and companies around the world.

Emigraph - new 70dB EMI Composite Shields

Emigraph – Composite sheets materials are our flagship products. We developed proprietary technology which allows us to achieve very efficient shielding of electromagnetic radiation!

70 dB / 1 mm of sample

This allows to dump most of the radiation impinging the blocker or enclosure of the device made from our material.

Emigraph - nanocomposite EMI shielding sheets by nanoEmi

NanoEmi shielding efficiency composites

NanoEMI scientists have taken the next step in graphene-based technologies. We are proud to announce that our Electromagnetic Interference (EMI) Shielding Composites patent. EMI acronym stands for electromagnetic interference. EMI is a phenomenon which is responsible for malfunction of electronic devices due to the electromagnetic waves propagating around the equipment.

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Discover the power of Emigraph -
nanocomposite EMI shielding sheets by nanoEmi

See how the advanced graphene composite blocks electromagnetic radiation

Emi shielding graphene composites

Graphene’s exceptional electrical conductivity, extensive surface area, and mechanical resilience make it a highly viable material for EMI shielding. Graphene composites are a promising material for EMI shielding applications due to their unique properties and ability to provide effective shielding performance. Scientists are exploring ways to utilize these properties in commercial applications, with EMI shielding being one of the most promising options. EMI shielding is a technique that safeguards electronic devices from undesirable electromagnetic radiation.

Graphene composites will prove themselves for EMI shielding

Graphene composites can be used as effective EMI shields by embedding conductive graphene flakes or fibers within a non-conductive polymer matrix. The graphene provides a conductive pathway, while the polymer matrix provides mechanical strength and stability.

Graphene-based EMI shields have several advantages over traditional metal-based shields, including lower weight, greater flexibility, and lower cost. Graphene composites can also be engineered to provide specific EMI shielding performance, depending on the application requirements.

Several studies have demonstrated the effectiveness of graphene composites as EMI shields. For example, until recently, researchers developed graphene-polymer composites that provide shielding efficiencies of more than 60 dB (99.9999% attenuation) in the GHz range. This has been the case so far, as our company has developed a graphene-polymer composite at 70 dB.

Graphene-based EMI shields have several advantages over traditional metal-based shields, including lower weight, greater flexibility, and lower cost. Graphene composites can also be engineered to provide specific EMI shielding performance, depending on the application requirements.

Emi shielding graphene coatings

Graphene coatings are an exciting new development in the field of electromagnetic interference (EMI) shielding. As we know, EMI is a type of electromagnetic radiation that can interfere with electronic devices and cause malfunctions or other issues. EMI shielding is therefore important for ensuring the reliable operation of many types of electronic devices.

Graphene is a two-dimensional material made of carbon atoms arranged in a hexagonal lattice. It has many remarkable properties, including high electrical conductivity, high thermal conductivity, and excellent mechanical strength. These properties make graphene an excellent candidate for EMI shielding coatings.

Thinner coatings

One of the main advantages of graphene coatings for EMI shielding is their thinness. Graphene coatings can be just a few atoms thick, making them highly effective at shielding electromagnetic radiation while minimizing the weight and bulk of the coating. This is especially important for applications where weight and space are at a premium, such as in aerospace, automotive or mobile devices.

Highly conductive coatings

Graphene coatings are highly durable and resistant to damage from environmental factors such as moisture or temperature changes. This means that they can provide reliable and long-lasting EMI shielding even in harsh or demanding environments.

Highly durable and resistant coatings

Graphene coatings are also highly conductive, meaning they can easily dissipate electrical charges and reduce the buildup of electromagnetic fields. This makes them highly effective at shielding against both high and low frequency EMI.

Graphene coatings are a highly promising technology for EMI shielding, offering a combination of high effectiveness, low weight, and durability. As research into graphene continues, it is likely that we will see even more advanced and innovative uses for this remarkable material in a wide range of applications.

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Discover nanoEmi solutions for EMI shielding

Emi shielding graphene films or sheets

Graphene films or sheets are another exciting application of graphene in the field of electromagnetic interference (EMI) shielding. As we know, EMI is a type of electromagnetic radiation that can interfere with electronic devices and cause malfunctions or other issues. EMI shielding is therefore important for ensuring the reliable operation of many types of electronic devices.

Graphene is a two-dimensional material made of carbon atoms arranged in a hexagonal lattice. Graphene films or sheets are typically just a few atoms thick, but they can cover a large area. This makes them highly effective at shielding electromagnetic radiation while minimizing the weight and bulk of the shielding material.

One of the main advantages of using graphene films or sheets for EMI shielding is their high conductivity. Graphene has an incredibly high electrical conductivity, which means that it can easily dissipate electrical charges and reduce the buildup of electromagnetic fields. This makes it highly effective at shielding against both high and low frequency EMI.

Graphene films or sheets are highly flexible and can be easily shaped or molded to fit a wide range of devices and applications. They are also highly durable and resistant to damage from environmental factors such as moisture or temperature changes. This means that they can provide reliable and long-lasting EMI shielding even in harsh or demanding environments.

Examples of EMI shielding graphene films or sheets include:

  1. Graphene films for electronic devices such as smartphones or tablets, which can be vulnerable to EMI interference that can affect their performance.
  2. Graphene sheets for shielding data centers or server rooms from EMI interference that can cause data loss or corruption.
  3. Graphene films for aerospace applications, such as satellites or aircraft, which need to be protected from EMI interference that can affect their communication or navigation systems.
  4. Graphene sheets for medical equipment, which can be vulnerable to EMI interference that can affect the accuracy of the results.
  5. Graphene films for automotive applications, such as electric cars, which need to be protected from EMI interference that can affect their electronic systems.

Graphene films or sheets are a highly promising technology for EMI shielding, offering a combination of high effectiveness, flexibility, and durability. As research into graphene continues, it is likely that we will see even more advanced and innovative uses for this remarkable material in a wide range of applications, from consumer electronics to medical devices to aerospace and beyond.

Emi shielding graphene films or sheets

Graphene fabrics and clothing are emerging applications of graphene in the field of electromagnetic interference (EMI) shielding. EMI is a type of electromagnetic radiation that can interfere with electronic devices and cause malfunctions or other issues. EMI shielding is therefore important for ensuring the reliable operation of many types of electronic devices.

Graphene is a two-dimensional material made of carbon atoms arranged in a hexagonal lattice. Graphene fabrics are typically made by incorporating graphene into the fibers of the fabric, while graphene clothing is made by using graphene fabrics to create garments or other wearable items.

One of the main advantages of using graphene fabrics or clothing for EMI shielding is their high conductivity. Graphene has an incredibly high electrical conductivity, which means that it can easily dissipate electrical charges and reduce the buildup of electromagnetic fields. This makes it highly effective at shielding against both high and low frequency EMI.

Graphene fabrics and clothing are highly flexible and can be easily shaped or molded to fit a wide range of devices and applications. They are also highly durable and resistant to damage from environmental factors such as moisture or temperature changes. This means that they can provide reliable and long-lasting EMI shielding even in harsh or demanding environments.

Graphene clothing is particularly promising for applications where the wearer needs to be protected from EMI, such as in medical or military settings. Graphene clothing can provide a lightweight and flexible layer of EMI shielding that is comfortable and easy to wear for extended periods of time.

Examples of EMI shielding graphene fabrics include:

  1. Graphene-infused curtains and drapes that block electromagnetic radiation from outside sources, such as Wi-Fi or cell phone signals, from entering a room.

  2. Graphene-enhanced fabrics for medical equipment such as MRI machines, which can be vulnerable to EMI interference that can affect the accuracy of the results.

  3. Graphene-based textiles for wearable technology such as smartwatches or fitness trackers, which need to be protected from interference from other electronic devices.

Examples of EMI shielding graphene clothing include:

  1. Graphene-infused gloves or jackets for workers who are exposed to high levels of electromagnetic radiation, such as electricians or power plant operators.

  2. Graphene clothing for military personnel or first responders who need protection from EMI interference in the field.

  3. Graphene-enhanced medical scrubs or gowns for healthcare workers who are exposed to EMI from medical equipment, such as MRI machines or defibrillators.

Graphene fabrics and clothing are highly promising applications of graphene in the field of EMI shielding. As research into graphene continues, it is likely that we will see even more advanced and innovative uses for this remarkable material in a wide range of applications.

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