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Particle Manufacturing Equipment - List of Manufacturers, Suppliers, Companies and Products

Particle Manufacturing Equipment Product List

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Low-cost nanoparticle manufacturing device "UFP-AT-300SS model"

Low-cost nanoparticle manufacturing device "UFP-AT-300SS model"

Easily produce ultra-fine particles and nanoparticles! Lease options are available and it's affordable!

The low-cost nanoparticle manufacturing device "UFP-AT-300SS" is a product suitable for producing small quantities of various metal nanoparticles easily. It is particularly easy to manufacture Ag, Sn, Bi, Cu, and Zn. Monthly leasing options are available, allowing for reasonable use, and our company also accepts commissioned manufacturing of nanoparticles at any time. *This product is supported by the Tokyo Metropolitan Small and Medium Enterprise Promotion Corporation's New Market Development Support Project. 【Main Specifications】 ■ DC Arc Power Supply 300A ■ Single Filter ■ Circulation Pump 100L/min ■ Pirani Vacuum Gauge ■ Water-Cooled Electrode (with W Chip) ■ Nanoparticle Heat Exchanger *For more details, please refer to the catalog. Feel free to contact us with any inquiries.

  • Vacuum Equipment
  • Fine grinding machine
  • Crusher

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Ultrafine particle and nanoparticle manufacturing equipment

Ultrafine particle and nanoparticle manufacturing equipment

The target materials include a wide range of metals, alloys, ceramics, and more! Since it is a dry process, clean nanoparticles can be produced.

The "Ultrafine Particle and Nanoparticle Manufacturing Device" was developed with the aim of forcibly evaporating materials by arc melting them in a gas atmosphere of hydrogen (mixed with argon) or nitrogen, to produce ultrafine particles and nanoparticles. The materials targeted for ultrafine particle and nanoparticle production cover a wide range, including various metals, alloys, and ceramics. Additionally, the generation chamber is designed with various features to efficiently generate and collect nanoparticles. 【Features】 ■ Capable of producing a large quantity of nanoparticles from various metals ■ Produces clean nanoparticles due to the dry process ■ Materials used can be arbitrary (blocks, plates, rods, particles) ■ The gases used, hydrogen/argon, are recycled, making it economical *For more details, please refer to the related links or feel free to contact us.

  • Vacuum Equipment
  • Crusher
  • Other physicochemical equipment

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[Customer Interview] Nihon University College of Science and Technology

[Customer Interview] Nihon University College of Science and Technology

Follow-up that understands researchers' needs! Introducing an interview article.

At the Department of Aerospace Engineering, Faculty of Science and Technology, Nihon University, we conduct system development and research that require cutting-edge technology in the aerospace field under the theme of "create and fly." Our graduates are active in various fields, including aerospace, and we have introduced nanoparticle manufacturing equipment from AtoTech for the development and research of new materials. This time, we interviewed an associate professor at the university who specializes in the development and research of new materials about the nanoparticle manufacturing equipment and our evaluation. We hope you will take a moment to read it. 【Interview Content (Excerpt)】 ■ When did your relationship begin? ■ Were you able to use the equipment right away? ■ What points do you consider important when choosing a partner company? ■ Please share what you think are AtoTech's strengths. ■ What do you expect from AtoTech in the future? *For detailed interview content, please refer to the related links. For more information, feel free to contact us.

  • Crusher
  • Other physicochemical equipment

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Lipid nanoparticle manufacturing device "Nunchuck"

Lipid nanoparticle manufacturing device "Nunchuck"

【Easy to Use】Screening of 8 stages of TFR in 10 minutes with LNP sizes of 50 to 200 nm! Proven results from 0.5 to 200 mL.

The lipid nanoparticle manufacturing device "Nunchuck" is the first and only platform that combines two essential steps needed to produce perfectly sized lipid nanoparticles (LNPs): total flow rate (TFR) screening and LNP formulation. Stop the repetitive workflow that can only measure one flow rate at a time and try the ultimate LNP manufacturing method that completes everything in one go. 【Features】 - Quickly find optimal conditions by screening 8 stages of TFR in just 10 minutes, and then immediately proceed to produce LNPs ranging from 0.5 to 200 mL. - Regardless of whether the required amount is 0.5 mL or 200 mL, Nunchuck can produce high-quality LNPs in any volume. *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices

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Nanoparticle manufacturing device "UFP-AT-300SS model" <budget version>

Nanoparticle manufacturing device "UFP-AT-300SS model" <budget version>

Introducing a nanoparticle production device using the arc discharge method in H2-Ar, with metals and alloys as raw materials!

The "UFP-AT-300SS model" is a cost-effective nanoparticle manufacturing device that allows for the easy production of desired metal nanoparticles in-house. It is suitable for the production of small quantities of various nanoparticles, particularly Ag, Sn, Bi, Cu, and Zn, which can be produced easily. The DC arc power supply is 300A, and the circulation pump has a capacity of 100L/min. Please feel free to contact us when you need assistance. 【Features】 ■ Easily produce desired metal nanoparticles in-house ■ Suitable for the production of small quantities of various nanoparticles ■ Particularly easy to produce Ag, Sn, Bi, Cu, and Zn ■ Arc discharge method in H2-Ar generation mode *For more details, please refer to the related links or feel free to contact us.

  • Vacuum Equipment
  • Crusher
  • Other physicochemical equipment

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Introduction of Proprietary Technology: Nanoparticle Manufacturing

Introduction of Proprietary Technology: Nanoparticle Manufacturing

The practical application of plasma-induced electrolysis significantly contributes to the continuous development of the nanoparticle market.

The plasma-induced cathodic electrolysis method, which is one of the plasma-induced electrolysis methods, reduces metal ions in molten salts through electrolysis utilizing the cathodic discharge phenomenon, thereby forming metal nanoparticles in the molten salts. Using this method, we have successfully formed nanoparticles of metals and various alloys. Furthermore, to enable the miniaturization and uniformity of the formed metal nanoparticles, as well as continuous production, we are developing an electrolysis method that utilizes a rotating disk. With the practical application of plasma-induced electrolysis, we believe we can meet the future demands for further particle miniaturization and significantly contribute to the continuous development of the nanoparticle market through stabilization and cost reduction of nanoparticle supply. [Features] - Development of an electrolysis method utilizing a rotating disk - Advancing the development of applied technologies, such as directly forming metal nanoparticles by removing oxygen from metal oxide powders *For more details, please refer to the PDF document or feel free to contact us.

  • Public Testing/Laboratory

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