OCSiAl to Unveil Advanced Graphene Nanotubes at APFE 2026: Enhancing Conductivity, Thermal Performance, and Durability in Next-Gen Materials

OCSiAl Events ルクセンブルク

Overview

OCSiAl will showcase its cutting-edge TUBALL™ graphene nanotube technology at APFE 2026 in Shanghai from June 24-26. These single-walled carbon nanotubes significantly improve electrical conductivity, heating capabilities, and wear resistance in films, adhesives, and coatings, achieving superior material performance with an ultra-low loading of just 0.04 wt.%. This innovation promises to deliver high-performance, cost-effective material solutions across diverse industrial applications.

In Depth

Background

Modern industries are in constant pursuit of materials that integrate high performance, durability, multi-functionality, and sustainability. Across critical sectors such as electronics, automotive, aerospace, construction, and packaging, there is an urgent need for novel solutions to overcome the inherent limitations of conventional materials. Carbon nanotube technology stands out as one of the most promising nanomaterials poised to meet these complex demands, with significant global strides in research, development, and commercialization. OCSiAl, a recognized world leader in the mass production of single-walled carbon nanotubes (SWCNTs), is strategically positioned to address these evolving market needs with its advanced product offerings.

Key Findings

OCSiAl has announced its participation in APFE 2026 (Asia International Tape, Film & High Functional Materials Expo), scheduled for June 24-26 in Shanghai, where it will exhibit its innovative graphene nanotube technology at Booth 5T076. The company’s flagship TUBALL™ nanotubes are engineered to impart stable electrical conductivity, exceptional heating performance, high light absorption, effective dust-repellent properties, and enhanced wear resistance across a broad spectrum of materials, including films, adhesives, and coatings. This exhibition will highlight the transformative impact of these nanotubes on material value and performance.

Technical Details

The graphene nanotubes pioneered by OCSiAl, specifically the TUBALL™ series, are single-walled carbon nanotubes (SWCNTs). Their unparalleled nanoscale structure facilitates performance enhancements that were previously unattainable with traditional conductive fillers, opening new avenues for material design and application.

• Stable Electrical Conductivity: TUBALL™ nanotubes establish an extraordinarily efficient conductive network within material matrices at remarkably low loading levels—as little as 0.04 wt.%. This capability is critical for achieving stable electrical conductivity essential for advanced applications such as electrostatic discharge (ESD) protection and electromagnetic interference (EMI) shielding.
• Enhanced Heating Performance and Light Absorption: Leveraging their superior thermal conductivity and strong light absorption characteristics, these nanotubes are ideally suited for next-generation heating films, highly sensitive optical sensors, and even advanced stealth materials requiring precise thermal management and signature control.
• Dust-Repellent Effect and Wear Resistance: Incorporating TUBALL™ nanotubes into material surfaces demonstrably improves surface hardness and wear resistance. Furthermore, they confer a significant dust-repellent effect by fortifying the material against external physical damage and inhibiting particle adhesion, extending product lifespan and reducing maintenance.
• Exceptional Effectiveness at Low Dosing: The ability to deliver these substantial performance enhancements with an extremely minimal additive amount (just 0.04 wt.%) represents a profound advantage. This ultra-low dosing maintains the critical physical properties—such as transparency and flexibility—of the original material, while simultaneously boosting product value and optimizing manufacturing costs.

The OCSiAl booth at APFE 2026 is expected to feature practical application examples, offering tangible demonstrations of how these advanced nanotubes fundamentally improve the properties of various industrial materials.

Strategic Significance & Outlook

OCSiAl’s presence at APFE 2026 will serve to emphasize the expansive and diverse application potential of its graphene nanotubes across films, adhesives, and coatings. Looking ahead, TUBALL™ nanotubes are poised to be a key catalyst for product innovation across numerous industries, contributing to the development of smarter and more durable electronic components, energy-efficient building materials, and high-performance automotive parts. Continued optimization of manufacturing processes and comprehensive evaluation of compatibility with an ever-wider array of matrix materials are anticipated to be crucial drivers for accelerating market penetration and expanding commercial adoption.

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