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The Global Carbon Nanotubes Market 2026-2036

Published Jun 01, 2025
Length 444 Pages
SKU # FTMK20081189

Description

The global carbon nanotubes (CNTs) market represents one of the most dynamic and rapidly expanding segments of the advanced materials industry, with market valuations projected to grow from >$5 billion to more than $25 billion by 2036. This exceptional growth trajectory reflects the transformative potential of these cylindrical carbon structures, which possess extraordinary mechanical, electrical, and thermal properties that are revolutionizing multiple industries across the next decade.

The CNT market is primarily divided into two main categories: multi-walled carbon nanotubes (MWCNTs) and single-walled carbon nanotubes (SWCNTs). By 2036, MWCNTs are projected to maintain their dominance, driven by their superior mechanical strength, electrical conductivity, and cost-effectiveness in large-scale applications. SWCNTs, while commanding premium pricing for specialized applications, are expected to reach $2.0 billion by 2036, finding critical roles in next-generation electronics, quantum computing, and advanced biomedical applications where their unique single-layer structure provides unmatched performance characteristics.

Energy storage emerges as the fastest-growing sector, driven by the global transition to electric vehicles and renewable energy infrastructure. CNTs serve as superior conductive additives in lithium-ion batteries, creating more effective electrical percolation networks at lower weight loadings than conventional carbons, while enabling faster charge transfer and higher battery capacity through their exceptional electrical conductivity and lightweight nature. The automotive industry's accelerating shift toward electrification, coupled with grid-scale energy storage demands, positions CNTs as essential materials for next-generation battery technologies.

CNT-reinforced materials are revolutionizing aerospace and automotive applications through lightweight structural components that maintain superior strength, enabling aircraft manufacturers to achieve significant weight reductions while enhancing fuel efficiency and safety. In the construction industry, CNT-enhanced concrete and coatings provide unprecedented durability and functionality. Electronics applications showcase CNTs' potential in flexible displays, transparent conductive films, sensors, and emerging quantum computing technologies. Their unique one-dimensional structure and tunable electronic properties make them invaluable for next-generation transistors, memory devices, and wearable electronics.

The production landscape is undergoing fundamental transformation, with chemical vapor deposition (CVD) technology maintaining its dominance due to scalability and cost-effectiveness. By 2036, advanced manufacturing techniques including floating catalyst CVD, plasma-enhanced processes, and emerging green synthesis methods using captured CO₂ and waste feedstocks are expected to revolutionize production economics and environmental sustainability. Major capacity expansions by industry leaders like LG Chem and OCSiAl are scaling production to meet demand growth across battery, electronics, and composite applications. The integration of artificial intelligence and machine learning in CNT synthesis is enabling unprecedented control over nanotube chirality, diameter, and properties, opening pathways to application-specific CNT variants that were previously impossible to produce at scale.

The CNT market's future trajectory through 2036 is intrinsically linked to mega-trends including the global energy transition, space exploration initiatives, quantum computing development, and advanced manufacturing technologies. As production scales increase exponentially and costs decrease through technological breakthroughs, carbon nanotubes are positioned to become fundamental building blocks for next-generation technologies, bridging the gap between laboratory innovation and commercial reality across aerospace, automotive, energy, electronics, and emerging biotechnology sectors. The convergence of CNTs with artificial intelligence, robotics, and sustainable manufacturing represents a paradigm shift toward intelligent materials that will define the technological landscape of the next decade.

Report contents include:
Market Size & Forecasts:

Global carbon nanotubes market projections from 2026-2035 with detailed volume (metric tons) and revenue analysis
Comprehensive segmentation by product type (MWCNTs, SWCNTs, DWCNTs, VACNTs, FWCNTs)
Regional market analysis covering Asia Pacific, North America, Europe, and emerging markets
Application-specific demand forecasts across 22 major end-use sectors

Technology & Production Analysis:
Detailed evaluation of synthesis methods including CVD, arc discharge, laser ablation, and emerging green production technologies
Production capacity analysis of manufacturers with current and planned expansionsBreakthrough technologies in controlled growth, hybrid CNTs, and carbon capture-derived production
Comparative assessment of manufacturing costs, scalability, and quality control

Applications & Market Opportunities:
Energy storage systems: Li-ion batteries, supercapacitors, and next-generation energy technologies
Electronics: transistors, memory devices, flexible displays, and quantum computing applications
Composites & materials: aerospace, automotive, construction, and high-performance polymers
Emerging markets: thermal interface materials, sensors, filtration, and biomedical applications

Competitive Intelligence:
Comprehensive profiles of 180+ companies across the value chain
Strategic partnerships, licensing agreements, and commercial collaborations
Patent landscape analysis and intellectual property trends
Technology readiness levels and commercialization timelines

Regulatory & Safety Framework:
Global regulations governing nanomaterials production and applications
Safety protocols, exposure monitoring, and environmental impact assessments
Compliance requirements across major markets and industry standards

Pricing & Market Dynamics:
Detailed pricing analysis for MWCNTs, SWCNTs, and specialty variants
Cost structure evolution and price forecasting through 2035
Supply chain analysis and raw material availability
Market challenges and growth drivers identification

The report features over 180 company profiles including 3D Strong, Birla Carbon, BNNano, BNNT, BNNT Technology Limited, Brewer Science, Büfa, C12, Cabot Corporation, Canatu, Carbice Corporation, Carbon Corp, Carbon Fly, Carbonova, CENS Materials, CHASM Advanced Materials, DexMat, Huntsman (Miralon), JEIO, LG Energy Solution, Mechnano, Meijo Nano Carbon, Molecular Rebar Design LLC, Nano-C, Nanocyl, Nanoramic Laboratories, NanoRial, NAWA Technologies, Nemo Nanomaterials, NEO Battery Materials, NoPo Nanotechnologies, NTherma, OCSiAl, PARC (Sensors), Raymor Industries, Samsung SDI (Battery), Shinko Carbon Nanotube Thermal Interface Materials, SmartNanotubes Technologies, Sumitomo Electric (Carbon Nanotube), TrimTabs, UP Catalyst, Wootz, Zeon, and Zeta Energy.

Strategic Insights Include:
Market entry strategies for new participants and expansion opportunities for existing players
Investment analysis and ROI projections across application segments
Technology roadmaps and innovation pathways
Risk assessment and mitigation strategies
Future market scenarios and disruptive technology impacts

Table of Contents

444 Pages
    • The global market for carbon nanotubes
    • Market Outlook 2025 and beyond
    • Commercial CNT-based products
    • Market Challenges
    • CNTs Market Analysis
    • CNT Pricing
    • Properties
    • Comparative properties of CNTs
    • Carbon nanotube materials
    • Intermediate products
    • Comparison of approaches for CNT synthesis.
    • SWCNT synthesis methods.
    • Arc discharge synthesis
    • Chemical Vapor Deposition (CVD)
    • High-pressure carbon monoxide synthesis
    • Combustion synthesis
    • Controlled growth of SWCNTs
    • Hybrid CNTs
    • Flame synthesis
    • Laser ablation synthesis
    • Vertically aligned nanotubes production
    • Silane solution method
    • By-products from carbon capture
    • Advantages and disadvantages of CNT synthesis methods
    • Regulation and safety of CNTs
    • Global regulations
    • Global Regulatory Bodies for Nanomaterials
    • Harmonized Classification of MWCNTs
    • Gaps in the Current Regulations
    • CNT Safety and Exposure
    • MWCNT patents filed 2007-2024.
    • SWCNT Patents Filed 2007-2024.
    • MWCNTs
    • SWCNTs and FWCNTs
    • ENERGY STORAGE: BATTERIES
    • ENERGY STORAGE: SUPERCAPACITORS
    • POLYMER ADDITIVES AND ELASTOMERS
    • 3D PRINTING
    • ADHESIVES
    • AEROSPACE
    • ELECTRONICS
    • QUANTUM COMPUTING
    • RUBBER AND TIRES
    • AUTOMOTIVE
    • CONDUCTIVE INKS
    • CONSTRUCTION
    • FILTRATION
    • FUEL CELLS
    • LIFE SCIENCES AND MEDICINE
    • LUBRICANTS
    • OIL AND GAS
    • PAINTS AND COATINGS
    • PHOTOVOLTAICS
    • SENSORS
    • SMART AND ELECTRONIC TEXTILES
    • THERMAL INTERFACE MATERIALS
    • POWER CABLES
    • 3D Strong
    • AerNos, Inc.
    • Aligned Carbon, Inc.
    • Arkema France SA
    • Awn Nanotech, Inc.
    • Battelle Memorial Institute
    • BBCP Conductor, Inc.
    • Betterial
    • Bioneer Corporation
    • Bio-Pact, LLC
    • Birla Carbon
    • Black Diamond Structures, LLC
    • BNNano
    • BNNT LLC
    • Brewer Science
    • C12 Quantum Electronics
    • Cabot Corporation
    • Cametics Cambridge Advanced Metals Limited
    • CarbonMeta Research Ltd.
    • Carbon Nano-material Technology Ltd.
    • C-Bond Systems LLC
    • C2CNT LLC/Capital Power
    • Canatu Oy
    • Carbice Corp.
    • Carbon Corp
    • Carbon Fly
    • Carbonics, Inc.
    • Carbon Meta Research
    • Carbon Upcycling Technologies, Inc.
    • CarbonX B.V.
    • Carestream Health, Inc.
    • Chengdu Organic Chemicals (TimesNano)
    • CENS Materials Ltd.
    • CNM Technologies GmbH
    • CNano Technology
    • Dainichiseika Color & Chemicals Manufacturing
    • DexMat, Inc.
    • Eden Innovations LLC
    • Essentium, Inc.
    • Epic Advanced Materials
    • Evercloak, Inc.
    • Fuji Pigment Co., Ltd.
    • Furukawa Electric Co., Ltd.
    • FutureCarbon GmbH
    • Goodfellow Corporation
    • GSI Creos Corporation
    • H Quest Vanguard, Inc.
    • Hamamatsu Carbonics Corporation
    • Honjo Chemical Corporation
    • Huntsman Corporation (Nanocomp Technologies, Inc.)
    • Hycamite TCD Technologies Oy
    • Hycarb, Inc.
    • IBM Corporation
    • Inoplaztech
    • JEIO Co., Ltd.
    • Jikantechno Corporation
    • KJ Specialty Paper Co., Ltd.
    • Koatsu Gas Kogyo Co., Ltd.
    • Korea Kumho Petrochemical Co., Ltd.
    • Lanxess Deutschland GmbH
    • LeaderNano Tech LLC
    • LG Chemical, Ltd.
    • Li-S Energy Ltd
    • Lintec of America, Inc.
    • Mattershift
    • MC Yamasan Polymers Co., Ltd.
    • MECHnano LLC
    • Micro-X Limited
    • Murata Machinery Ltd.
    • Naieel Technology
    • Nacalai Tesque
    • Nano Cube Japan Co., Ltd.
    • Nanomatics Pte. Ltd.
    • Nanomix, Inc.
    • Nanoramic Laboratories
    • Nano RAY-T LLC
    • NanoRial Technologies Ltd
    • Nanosperse LLC
    • NanoTechLabs, Inc.
    • Nanovis
    • Nantero, Inc.
    • Nawa Techonologies
    • NEC Corporation
    • Nemo Nanomaterials
    • NEO Battery Materials
    • New Metals and Chemicals Corporation
    • Nippon Shizai Co., Ltd.
    • Nissin Electric Co., Ltd.
    • Nitta Corporation
    • Novation Solutions, LLC (NovationSi)
    • Novasolix, Inc.
    • NTherma Corporation
    • Odysseus Technologies, Inc.
    • Ororo
    • Oy Morphona Ltd.
    • Perpetuus Carbon Group
    • Plasma-X
    • Porifera, Inc.
    • Prysmian Group
    • Q-Flo Limited
    • RTP Company
    • Sakata Inx Corp.
    • Saratoga Energy Corporation
    • Shenzhen Cone Technology
    • Shenzhen Sanshun Nano New Materials Co., Ltd.
    • Shinko Electric Industries Co., Ltd.
    • Sineva Material Technology Co., Ltd
    • SixLine Semiconductor, Inc.
    • SkyNano Technologies
    • SkyWater Technology
    • Solarno, Inc.
    • Solid Carbon Products, LLC
    • Somalytics, Inc.
    • Sunrise New Energy Co., Ltd.,
    • Taiwan Carbon Nanotube Technology
    • Taiyo Nippon Sanso Corporation
    • Takenaka Seisakusho Co., Ltd.
    • TE Connectivity
    • Teijin Aramid B.V.
    • Tesla Nanocoatings
    • Toho Kasei
    • Toho Tenax Co., Ltd.
    • Tokushu Tokai Paper Co., Ltd.
    • Top Nanosys
    • Tortech Nano Fibers
    • Toyo Tanso Co., Ltd.
    • Toyocolor Co., Ltd.
    • TPR Co., Ltd.
    • Trim Tabs
    • Tyrata, Inc.
    • UP Catalyst
    • Veelo Technologies
    • Verdox
    • Wootz
    • Xianfeng NanoMaterials Co., Ltd.
    • XinNano Material, Inc
    • Zeon Specialty Materials
    • Zeptor Corporation
    • Zeta Energy LLC
    • ZOZ GmbH
    • Zyvex Technologies
    • Chasm Advanced Materials, Inc.
    • Kao Corporation
    • KH Chemicals Co., Ltd.
    • Korbon Co., Ltd.
    • Kusumoto Chemicals
    • Meijo Nano Carbon Co., Ltd.
    • Nano-C, Inc.
    • Raymor Industries, Inc.
    • NoPo Nanotechnologies India Private Limited
    • Novation Solutions, LLC (NovationSi)
    • OCSiAl Group
    • Shenzhen Faymo Technology Co., Ltd.
    • SmartNanotubes Technologies GmbH
    • Thomas Swan & Co., Ltd.
    • Toray Industries, Inc.
    • Zeon Nano Technology Co., Ltd.
    • Ex-producers
    • SWCNT Distributors
    • BNNano, Inc.
    • BNNT, LLC
    • EPICTM Advanced Materials
    • Fujitsu Laboratories
    • Hitachi Zosen Corporation
  • RESEARCH METHODOLOGY
  • REFERENCES

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