Nanotubes Product List and Ranking from 5 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

Nanotubes Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. 戸田工業 Tokyo//Building materials, supplies and fixtures manufacturers
  2. マーケットリサーチセンター Tokyo//Service Industry
  3. Tohoku Techno Arch Co., Ltd. Miyagi//Educational and Research Institutions
  4. 4 シーディアイ Aichi//Building materials, supplies and fixtures manufacturers
  5. 4 フェザーグラス Tokyo//others
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Nanotubes Product ranking

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. Multi-layer Carbon Nanotube 'TC-2000' 戸田工業
  2. World Single-Walled Carbon Nanotube Market Research Report 2022-2031 マーケットリサーチセンター
  3. Hokkaido Univ. Technology:Purification Methods for Single-Walled Carbon Nanotubes:HK25-002 Tohoku Techno Arch Co., Ltd.
  4. Multi-layer carbon nanotube flakes シーディアイ
  5. 4 Tohoku Univ. Technology:Carbon nanotube production catalyst, carbon nanotube and its production method: T21-002 Tohoku Techno Arch Co., Ltd.

Nanotubes Product List

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Hokkaido Univ. Technology:Purification Methods for Single-Walled Carbon Nanotubes:HK25-002

Hokkaido Univ. Technology:Purification Methods for Single-Walled Carbon Nanotubes:HK25-002

High-purity,long SWCNTs with specific chirarity

Single-walled carbon nanotubes (SWCNTs) are regarded as promising materials for next-generation electronics owing to their unique optical, electronic, and mechanical properties. Conventional synthesis methods such as laser ablation and arc discharge create SWCNTs with a broad mixture of chiralities, resulting in inconsistent device performance. Polymer wrapping and density gradient ultracentrifugation (DGU) are widely used for chirality separation, but polymer wrapping is limited to certain chiralities and DGU tends to shorten nanotube length, increasing resistance in electronic devices. We have developed a new dispersion and purification method that enables efficient separation of a wide variety of SWCNT chiralities—including enantiomers—while preserving tube length. The resulting high-purity, long SWCNTs allow the realization of advanced devices with high speed and sensitivity, expanding the possibilities for practical applications in electronics and sensing technologies.

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Multi-layer carbon nanotube flakes

Multi-layer carbon nanotube flakes

It is a nanofiber with excellent conductive, thermal conductivity, and mechanical properties.

This is a product in a state where multi-layer carbon nanotubes are aggregated. Specifications: CNT diameter: 10-40 (nm) typ. - Purity: >95 (%) - No binder If you are interested in purchasing the product or samples, please feel free to contact us.

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Multi-layer Carbon Nanotube 'TC-2000'

Multi-layer Carbon Nanotube 'TC-2000'

Customization of tube diameter and crystallinity is possible. We provide products tailored to your needs.

"TC-2000" is a new functional material that enables easy dispersion by controlling the physical properties of CNTs through proprietary technology. Thanks to the shape control technology of CNTs, it features uniform dispersion in a short time, allowing for high concentration dispersion and a reduction in the amount of dispersant used. Additionally, leveraging the catalyst and process technology developed by Toda Industries, customization of tube diameter and crystallinity is possible, enabling us to provide products tailored to specific needs. [Features] ■ Developed product ■ Good dispersibility ■ Capability for high concentration dispersion and reduction of dispersant amount ■ Property control technology *For more details, please refer to the PDF materials or feel free to contact us.

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Tohoku Univ. Technology:Carbon nanotube production catalyst, carbon nanotube and its production method: T21-002

Tohoku Univ. Technology:Carbon nanotube production catalyst, carbon nanotube and its production method: T21-002

Able to product high purity single chirality CNT at low cost

Carbon nanotube (CNT) is a graphene cylindrical sheet consisting of six-membered ring of carbon. It is known that the CNT axial winding of graphene (chirality) determines the electronic state, such as metallicity, semiconductivity and band gap (BG).  The production of CNT with high chiral purity requires a complex process that includes the wet process such as separation and impurity removal.  This invention is about a simple method for synthesizing semiconductor type (BG>1eV) single layer CNT with extremely high chiral purity (over 90%), which does not require a process to increase chiral purity and which has low production cost.

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Carbon nanotube (CNT)

Carbon nanotube (CNT)

This is an innovative technology that has made it possible to achieve high-concentration mixing and dispersion of resin (plastic) materials and carbon nanotubes (CNT) for the first time.

◆ Features - Realization of conductive resin (plastic) ⇒ First achievement in molding materials and fiberization. It is possible to support metal materials (around groups 6 to 13 of the periodic table, several types are also acceptable) within carbon nanotubes (CNT), allowing for control of conductivity, etc. - Since it is a conductive material, plating is possible. - Strength is significantly increased, enabling thinner designs and application to structural materials. The mixing ratio of carbon nanotubes (CNT) can be adjusted up to about 30% w/w. No additives. Typically below 5% w/w. - Realization of high thermal conductivity (plastic) ⇒ First achievement in molding materials and fiberization. High cooling and high heating effects. Thermal conductivity: Copper (Cu) 400W/(m·K), Diamond 22000W/(m·K), CNT 4000W/(m·K) ※ In a single layer, depending on direction, it exceeds diamond. ※ 10 to 50 times the thermal conductivity of copper. - Realization of high current capacity wiring materials. The current capacity of CNT is 2000 times that of copper. While its electrical conductivity is lower than that of copper, it allows for the support of metal materials, making control of conductivity easy. - Electromagnetic wave absorption material. Electromagnetic waves are electrified and grounded.

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World Carbon Nanotube (CNT) Market Research Report

World Carbon Nanotube (CNT) Market Research Report

Global Carbon Nanotube (CNT) Market (up to 2027): By Type, By Shape, By Process, By Industry, By Region

The market research report by 360iResearch predicts that the global carbon nanotube (CNT) market size will grow from $5,454.85 million in 2021 to $6,280.15 million in 2022, and further increase at an average annual rate of 15.30% to reach $12,820.64 million by 2027. This report provides a comprehensive analysis of the global carbon nanotube (CNT) market, including an introduction, research methodology, executive summary, market overview, market insights, analysis by type (multi-walled carbon nanotubes (MWCNT), single-walled carbon nanotubes (SWCNT)), analysis by form (black powder, carbon nanotube sheets, lumps, black microspheres), analysis by process (arc discharge & laser ablation, catalytic chemical vapor deposition, chemical vapor deposition, comocat, electrolysis), analysis by industry (aerospace & defense, chemicals & advanced materials, energy & utilities, medical & pharmaceuticals, semiconductors & electronics), regional analysis (North and South America, United States, Canada, Brazil, Asia-Pacific, Japan, China, India, South Korea, Taiwan, Europe/Middle East/Africa, United Kingdom, Germany, France, Russia, and others), competitive landscape, and company information.

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World Single-Walled Carbon Nanotube Market Research Report 2022-2031

World Single-Walled Carbon Nanotube Market Research Report 2022-2031

World Market for Single-Walled Carbon Nanotubes 2022-2031: Industry Analysis, Size, Share, Growth, Trends, Forecast

The research material from Transparency Market Research comprehensively investigates and analyzes the global single-layer carbon nanotube market, including an executive summary, market overview, analysis of the impact of the COVID-19 pandemic, the effects of geopolitical scenarios on the market, price trend analysis, analysis by technology (Chemical Vapor Deposition [CVD], Electric Arc, High-Pressure Carbon Monoxide [HiPCo], and others), analysis by application (Electronics & Semiconductors, Energy, Biomedical, Aerospace & Defense, and others), regional analysis (North America, Europe, Asia-Pacific, Latin America, Middle East/Africa), competitive landscape, company information, and more.

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Global Carbon Nanotube (CNT) Market Research Report (up to 2027)

Global Carbon Nanotube (CNT) Market Research Report (up to 2027)

Global Carbon Nanotube (CNT) Market (up to 2027): By Type, By Shape, By Process, By Industry, By Region

The market research report by 360iResearch predicts that the global carbon nanotube (CNT) market size will grow from $5,454.85 million in 2021 to $6,280.15 million in 2022, and further increase at an average annual rate of 15.30% to reach $12,820.64 million by 2027. This report provides a comprehensive analysis of the global carbon nanotube (CNT) market, including an introduction, research methodology, executive summary, market overview, market insights, analysis by type (multi-walled carbon nanotubes (MWCNT), single-walled carbon nanotubes (SWCNT)), analysis by shape (black powder, carbon nanotube sheets, lumps, black microspheres), analysis by process (arc discharge & laser ablation, catalytic chemical vapor deposition, chemical vapor deposition, comocat, electrolysis), analysis by industry (aerospace & defense, chemicals & advanced materials, energy & utilities, medical & pharmaceuticals, semiconductors & electronics), regional analysis (North and South America, United States, Canada, Brazil, Asia-Pacific, Japan, China, India, South Korea, Taiwan, Europe/Middle East/Africa, United Kingdom, Germany, France, Russia, and others), competitive landscape, and company information.

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