Graphene Nanotubes (GNTs) – Ultra-Long, One-Dimensional Conductive Networks

Graphene Nanotubes (GNTs) – Ultra-Long, One-Dimensional Conductive Networks

Unlock the full potential of your materials. Graphene Nanotubes (GNTs) are single- or multi-wall carbon nanotube structures offering an unmatched combination of properties.

  • Superior Conductivity: Create efficient, long-range electrical pathways with exceptional electrical and thermal conductivity.
  • Extreme Strength: Deliver exceptional tensile strength and elasticity, ideal for high-performance composites and rubber reinforcement.
  • Ultra-Low Loading: Achieve performance targets with tiny amounts—effective at just 0.01–0.1% loading in polymers and elastomers.
  • Massive Aspect Ratio: The ultra-high aspect ratio (>10,000) ensures optimal network formation for anti-static, conductive, and structural applications.
  • Key Applications: Conductive Polymers, Rubber Reinforcement (Tires), Lightweight Composites, EMI Shielding, and High-Capacity Battery Electrodes.
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Description

Graphene Nanotubes, also known as single-wall or multi-wall carbon nanotube-like structures with graphene-derived tubular morphology, deliver unmatched electrical conductivity, mechanical strength, and aspect ratio. Their one-dimensional structure creates efficient electron pathways even at extremely low loading levels in matrices.

Key Features

  • Ultra-high aspect ratio (>10,000) enabling long-range conductive networks
  • Exceptional tensile strength and elasticity
  • Superior electrical and thermal conductivity
  • Effective even at 0.01–0.1% loading in polymers or rubbers
  • High purity and consistent tube morphology

Applications

  • Anti-static and conductive polymers
  • Rubber reinforcement for tires and industrial elastomers
  • Lightweight structural composites
  • EMI shielding and thermal interface materials
  • Electrode additives for batteries and supercapacitors

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