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Nanofiber Product List and Ranking from 17 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Nov 05, 2025~Dec 02, 2025
This ranking is based on the number of page views on our site.

Nanofiber Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Nov 05, 2025~Dec 02, 2025
This ranking is based on the number of page views on our site.

  1. スギノマシン 本社・早月事業所 Toyama//Industrial Machinery
  2. ALMEDIO INC. Tokyo//Other manufacturing
  3. メック ナノファイバー事業 Fukuoka//Industrial Machinery
  4. 4 GSアライアンス 冨士色素株式会社 内 Hyogo//Chemical
  5. 5 阪神交易 Osaka//Trading company/Wholesale
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Nanofiber Product ranking

Last Updated: Aggregation Period:Nov 05, 2025~Dec 02, 2025
This ranking is based on the number of page views on our site.

  1. 5 Selected Manual Tools for Pipe Processing <Various Pipe Processing Videos Available> スギノマシン 本社・早月事業所
  2. Automatic drill press with tapping function - STANDRILL series スギノマシン 本社・早月事業所
  3. Carbon nano/microfibers that are easily dispersible even at high concentrations. ALMEDIO INC.
  4. 4 Reinforcement carbon nanofiber ALMEDIO INC.
  5. 5 Conductive carbon nanofibers ALMEDIO INC.

Nanofiber Product List

31~40 item / All 40 items

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Nanofiber & Nanoparticle Production Device "FLUIDNATEK Tool"

Nanofiber & Nanoparticle Production Device "FLUIDNATEK Tool"

A system suitable for the research and manufacturing of nanofibers and nanoparticles. For the development of functional foods and the enhancement of drug functionality.

The "FLUIDNATEK" series is a device capable of producing nanoparticles and nanofibers using electrospinning/electrospray methods. It offers a lineup of various devices from lab scale to manufacturing scale, allowing for seamless scale-up from research to production. Micro and nanoparticles can be produced from a wide range of materials, including biopolymers, proteins, carbohydrates, polymers, synthetic polymers, natural polymers, sol-gel materials, ceramics, and glass. 【Features】 ■ Adaptable to various scales from research, pilot, to industrial production ■ Applicable to a very wide range of materials and solvents ■ Capable of scaling up all electrospinning processes (including coaxial and multi-axis) ■ Optional environmental chamber with humidity and temperature control *For more details, please refer to the PDF document or feel free to contact us.

  • Other physicochemical equipment

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Observation of CNF (Cellulose Nanofiber) using TEM.

Observation of CNF (Cellulose Nanofiber) using TEM.

Introducing the observation results of the structure of cellulose nanofibers (CNF)!

We would like to introduce our observation of cellulose nanofibers (CNF) using transmission electron microscopy (TEM). Utilizing the know-how we have cultivated in observing resin materials with TEM, we conducted observations on commercially available cellulose nanofiber (CNF) samples. As a result, it was found that commercial CNF1 consists of several thin microfibrils bundled together, while commercial CNF2 consists of one or a few microfibrils bundled together. 【Structure】 ■ Commercial CNF1 - A CNF sample made up of several thin microfibrils, approximately a few nanometers in diameter, bundled together to form fibers about 100 nm wide. ■ Commercial CNF2 - A CNF sample consisting of a bundle of one microfibril or a few microfibrils. *For more details, please refer to the related links or feel free to contact us.

  • 1.PNG
  • Contract Analysis

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Carbon nano/microfibers that are easily dispersible even at high concentrations.

Carbon nano/microfibers that are easily dispersible even at high concentrations.

Development of functional materials to replace metals! Adding to resins to enhance electrical conductivity, thermal conductivity, rigidity, lubricity, and shielding properties! Prototype samples are also available.

This is an introduction to the "Carbon Nanofiber/Carbon Microfiber" that our company handles. The "Carbon Nanofiber" manufactured by Almedio has a fiber-like aspect ratio with a diameter of 200 to 800 nm and a length of 1 to 20 µm. By adding CNF in high concentrations to resins, improvements in electrical conductivity, thermal conductivity, rigidity, lubricity, and shielding properties can be achieved, making it possible to consider alternatives to metals. We also offer "Carbon Microfiber" with a diameter of 5 to 10 µm and a length of 10 to 25 µm, available in both [reinforcement] and [conductive] lineups. 【Features of Carbon Nanofiber】 ■ Diameter: 200 to 800 nm ■ Length: 1 to 20 µm ■ Easy to add in high concentrations ■ Easy to disperse ■ Possible to consider alternatives to metals *For more details, please refer to the PDF document or feel free to contact us.

  • fiber

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Conductive carbon nanofibers (high dispersion)

Conductive carbon nanofibers (high dispersion)

Milled fibers with a diameter of 200 to 800 nm and a length of 1 to 15 µm, having a fibrous aspect ratio.

It is a milled fiber with a diameter of 200 to 800 nm and a length of 1 to 15 µm, having a fibrous aspect ratio. This material has higher dispersibility than carbon nanofibers used for conductivity and can achieve higher thermal and electrical conductivity. As a powder filler, it has a thermal conductivity of over 550 W/mK and a volume resistivity of less than 10^-5 Ωm.

  • others

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Inorganic cellulose nanofiber

Inorganic cellulose nanofiber

Inorganic cellulose nanofiber material (sCNF) is the only technology of its kind in the world!

- Coating the surface with silica, which is harmless to the human body, using ethanol and water as solvents → As it is an environmentally friendly material, it allows for consideration of the environment. - Excellent dispersion within polymers → Even with a small amount used, it has the effect of reinforcing the physical properties of plastics, making it possible to reduce the amount of plastic used by about 10-30%. When applied to automotive interior and exterior materials, it can reduce usage by up to about 50%. - High flame retardancy → Minimizing the use of flame retardants! - Used solvents can be recovered and reused, and plastics applied with our materials can be recycled more than six times while maintaining dispersion, minimizing discoloration, and preserving mechanical properties → Cost reduction effect is excellent!

  • Chemicals

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Case studies of biodegradable polymer nanofibers for medical applications.

Case studies of biodegradable polymer nanofibers for medical applications.

We will provide a detailed introduction to the characteristics of nanofibers from a medical perspective, as well as examples of product development!

I will introduce "Medical Applications of Nanofibers." Nanofibers produced by the electrospinning method are one of the important applications, particularly in the medical field, which is receiving significant attention. Examples of product development utilizing the characteristics of nanofibers include "scaffold materials for regenerative medicine," "drug release capsules," and "artificial blood vessels." 【Characteristics of Nanofibers from a Medical Perspective】 ■ Cell adhesion ■ Biocompatibility and biodegradability ■ Porosity and vast surface area ■ Physical properties and mechanical strength *For more details, please contact us by phone or through the inquiry form. Tel. 0942-41-2200 HP: https://www.mecc-jp.com/nano/contact/

  • Other laboratory equipment and containers
  • others
  • Other contract services

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Examples of medical applications of nanofibers in regenerative medicine, drug discovery, and artificial blood vessels.

Examples of medical applications of nanofibers in regenerative medicine, drug discovery, and artificial blood vessels.

Introducing the characteristics of nanofibers from a medical perspective, along with detailed examples of product development!

I will introduce "Case Studies of Nanofibers for Medical Applications." Nanofibers produced by the electrospinning method are one of the important applications, particularly gaining attention in the medical field. Examples of product development utilizing the characteristics of nanofibers include "scaffold materials for regenerative medicine," "drug release capsules," and "artificial blood vessels." 【Characteristics of Nanofibers from a Medical Perspective】 ■ Cell Adhesion ■ Biocompatibility and Biodegradability ■ Porosity and Vast Surface Area ■ Physical Properties and Mechanical Strength *For more details, please contact us by phone or through the inquiry form. Tel. 0942-41-2200 HP: https://www.mecc-jp.com/nano/contact/

  • Other laboratory equipment and containers
  • others
  • Other contract services

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Pharmaceuticals, Drug Discovery, DDS, Application of Nanofibers in Healthcare

Pharmaceuticals, Drug Discovery, DDS, Application of Nanofibers in Healthcare

Wide-ranging possibilities for applications as wound materials, waterproof materials, drug-carrying materials, and formulation materials, etc.

We would like to introduce the application of nanofibers in healthcare. Professor Funakubo's group at Tokyo Denki University, Faculty of Science and Technology, is conducting research on the fabrication of artificial blood vessels and artificial organs in the field of regenerative medicine. The use of nanofibers in this research is considered advantageous for creating three-dimensional structures and serving as scaffold materials for cells. 【Examples of Applications】 ■ Artificial blood vessels ■ Artificial organs ■ Scaffold materials for cells *For more details, please contact us by phone or through the inquiry form. Tel. 0942-41-2200 HP: https://www.mecc-jp.com/nano/contact/

  • fiber
  • Other polymer materials
  • Organic Natural Materials

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Application of Biodegradable Polymer Nanofibers in Healthcare

Application of Biodegradable Polymer Nanofibers in Healthcare

Wide-ranging possibilities for applications as wound materials, waterproof materials, drug-carrying materials, and formulation materials, etc.

We would like to introduce the application of nanofibers in healthcare. Professor Funakubo's group at Tokyo Denki University, Faculty of Science and Technology, is researching the production of artificial blood vessels and artificial organs in the field of regenerative medicine. The use of nanofibers in this research is considered advantageous for creating three-dimensional structures and serving as scaffold materials for cells. [Examples of Applications] ■ Artificial Blood Vessels ■ Artificial Organs ■ Scaffold Materials for Cells *For more details, please contact us by phone or through the inquiry form. Tel. 0942-41-2200 HP: https://www.mecc-jp.com/nano/contact/

  • fiber
  • Other polymer materials
  • Organic Natural Materials

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Cellulose Nanofibers: Manufacturing, Compounding, and Evaluation Technologies for Practical Application

Cellulose Nanofibers: Manufacturing, Compounding, and Evaluation Technologies for Practical Application

Accurately grasp the key points of product development from the latest market data and various elemental technologies for product applications!

● Understanding the CNF market situation, points for practical application from patent publications, and the status of application development - What are the promising applications and fields that can leverage the characteristics of CNF? The production operation status and research and development trends both domestically and internationally. Analyzing the potential market for CNF, manufacturing costs, and materials to consider before entry based on market data. ● Elemental technologies for the production, dispersion, and compounding of cellulose nanofibers - What is the amount of CNF to be added? Methods to prevent aggregation during mixing, excellent properties of composite materials, and approaches to practical application. - Comparison of various manufacturing techniques and processes for CNF and their physical property evaluations. Efforts for large-scale production at low cost, etc. ● How to simply evaluate the state of CNF? - Evaluation methods for fiber form, fiber width and length, fiber surface properties, dispersibility, degree of defibrillation, viscosity, and strength. ● Technology development and evaluation for product applications - Examples of technology development aimed at improving tactile sensation and stability, and adding functionality. Methods for compounding, dispersing, and powdering with various materials. Challenges and solution approaches from property evaluation to practical application.

  • Paper and pulp products
  • Wood products
  • Other polymer materials

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