• info@nordischeenergy.com

Follow Us:

Active Materials

At Nordische Energy Systems, we use advanced nanomaterials to promote innovation across various industrial fields. Our portfolio of active materials mainly includes advanced carbon-based nanomaterials, such as :

  • Few -Layered Graphene(FLG)
  • Reduced Graphene Oxide (rGO)
  • Functionalized Multi-Walled Carbon Nanotubes (f-MWCNTs)

These materials are key to the evolution of modern technologies, delivering improved performance, durability, and efficiency in applications ranging from energy storage to advanced composites.

Few Layer Graphene

Graphene can change our world. Experts believe that graphene will be vastly more important to the 21st Century than plastics were to the 20th Century. Many leading tech companies & numerous startups are poised to enhance hundreds of products with graphene; and Few-layered Graphene(FLG) the industry’s preferred form factor of graphene. FLG consists of ultra-thin graphene sheets, typically 2–5 layers thick, maintaining high electrical and thermal conductivity with exceptional mechanical strength. This material serves as a superior additive for composites, coatings, and next-generation energy storage devices, enabling enhanced conductivity and structural integrity.

Application:

  • Energy Storage: Enhancing the performance of supercapacitors and lithium-ion batteries by improving charge transfer and energy density.
  • Sensors: Enabling ultra-sensitive detection of gases, biomolecules, and environmental changes due to its high surface area and conductivity.
  • Flexible Electronics: Serving as a critical component in wearable devices and flexible displays due to its mechanical robustness and transparency.
active-materials-diagram-1

Reduced Graphene Oxide (rGO)

Reduced Graphene Oxide is a derivative of graphene, produced by the reduction of graphene oxide. It retains many remarkable properties of pristine graphene, such as high electrical conductivity, large surface area, and mechanical strength, while offering enhanced processability and scalability. They possess high electrical and thermal conductivity, excellent mechanical strength and flexibility, large surface area for enhanced adsorption and catalytic activity and tunable surface chemistry for functionalization. rGO is derived from graphene oxide through a controlled reduction process, hence, it retains some amount of functional oxygen groups that enhance its dispersibility and interaction with various materials. This makes it an ideal choice for applications such as:

Application:

  • Energy Storage: Used in supercapacitors and lithium-ion batteries to enhance charge storage capacity and cycling stability.
  • Flexible Electronics: Facilitates the development of lightweight, transparent, and flexible electronic components.
  • Sensors: Improves the sensitivity and selectivity of biosensors and environmental monitoring devices.
  • Coatings and Composites: When incorporated into polymers and coatings, it provides improved mechanical strength and thermal stability.
active-materials-diagram-2-2

Functionalized Multi-Walled Carbon Nanotubes
(f-MWCNTs)

Functionalized Multi-Walled Carbon Nanotubes(f-MWCNTs) are engineered versions of MWCNTs, where surface modifications introduce specific chemical groups to enhance their compatibility and performance in various applications. Their key features include high aspect ratio and tensile strength, superior electrical and thermal conductivity, enhanced dispersibility in solvents and polymers due to functionalization and tailored surface chemistry for targeted applications. f-MWCNTs are engineered by introducing specific functional groups, that lead to improved solubility and compatibility with diverse materials, making them highly effective in applications such as:

Application:

  • Structural Composites: Reinforces polymers and resins, resulting in enhanced mechanical properties such as tensile strength and durability.
  • Electronics: Used as conductive fillers in printed electronics and EMI shielding.
  • Biomedical Applications: Used for drug delivery and tissue engineering as they can be made biocompatible upon functionalization.
  • Water Purification: Used as an efficient catalyst support and adsorbent for removing contaminants from water.
active-materials-diagram-3

At Nordische Energy Systems, we specialize in the production and customization of these advanced active materials, ensuring the highest quality and performance for your innovative solutions. Explore how FLG, rGO and f-MWCNTs can transform your products and technologies—contact us today to learn more.