The Challenge
NemoBLEND™ addresses the key challenges of conductive and EMI-shielded plastics by eliminating the need for high filler loadings that often cause brittleness and degraded mechanical properties. It avoids dusty and unsafe processing associated with Carbon Black and replaces heavy, corrosion-prone metal solutions. The result is reliable conductivity and EMI shielding in lightweight, clean, and recyclable plastic components—without compromising strength, flexibility, or manufacturing efficiency.
Conductivity
NemoBLEND™ enables electrical conductivity by forming an efficient conductive network within the polymer matrix using carefully dispersed carbon nanotubes. Thanks to their high aspect ratio and nanoscale structure, the CNTs create interconnected pathways at very low concentrations, allowing electrons to move through the material without the need for high filler loadings. This results in reliable, uniform conductivity while preserving the mechanical properties, processability, and appearance of the plastic.
EMI Shielding
NemoBLEND™ provides effective electromagnetic interference (EMI) shielding by creating a continuous conductive network within the plastic matrix. The well-dispersed carbon nanotubes absorb and reflect electromagnetic waves, reducing signal leakage and interference. This enables lightweight, corrosion-free EMI shielding directly in plastic components, eliminating the need for metal fillers or conductive coatings while maintaining design flexibility and processability.
Expert Dispersion
Performance starts with dispersion. Nemo has deep expertise in creating stable, uniform dispersions of nanocarbons in both solvents and polymer matrices, ensuring consistent performance and reliable processing. Our controlled dispersion techniques prevent agglomeration and enable the formation of efficient conductive networks at low loadings. We tailor each formulation to the target medium and application, delivering customized solutions optimized for your materials, processes, and performance requirements.