アドバンスト・ナノ・テクノロジィ List of Products and Services

Our company offers products equipped with the nano-dispersion technology "Ultra High-Pressure Wet Cavitation," suitable for cosmetic materials that require uniform nano-particles. We are currently providing materials that explain this nano-dispersion technology. By utilizing the shock force generated when bubbles collapse, it is possible to efficiently create high-quality nano-particles. This technology can be applied not only to cosmetic materials such as titanium oxide, iron oxide, cellulose nanofibers, and boron nitride but also to the following types of materials: 【Examples of Materials】 ◎ Metal materials ◎ Magnetic materials ◎ Ceramics ◎ Oxides ◎ Fibers ◎ Carbon materials ◎ Pharmaceuticals ◎ Food ◎ Optical materials … and more *For more details, please refer to the materials. Feel free to contact us with any inquiries.

• Emulsifier/Disperser

The "Deagglomeration and Dispersion Technology Case Studies" introduces solutions using the deagglomeration and dispersion technology "Cavitation Mill," which utilizes the shock force during the collapse of bubbles. Advanced Nanotechnology offers a wide range of scales, from small lab-scale machines to medium-sized and mass production machines, capable of addressing various applications including electronic devices, pharmaceuticals, cosmetics, and health foods. If you are facing issues with foreign matter contamination, labor and cost concerns, or pollution related to nano-dispersion of cellulose, carbon nanotubes, silica, etc., please leave it to us! [Featured Cases] ■ Antibacterial Cellulose Fibers ◎ Imparting antibacterial, antifungal, and deodorizing functions using antibacterial ceramics 　・Functional paper with antibacterial, antifungal, deodorizing, and fire-resistant properties 　・Nanofibers are expected to serve as structural materials to replace carbon fibers 　・Weight increase of 1-2% in basis weight 　・No discernible difference before and after treatment to the naked eye *If you would like a technical materials DVD, please contact us through the "Inquiries" section.

• Emulsifier/Disperser

We are currently offering a free collection of case studies on nano-dispersion using our "Wet High-Pressure Cavitation Mill"! The collection is filled with examples featuring ceramics, nano-particles, carbon nanotubes, and nano-coating technology, complete with photos and illustrations. It also covers a wide range of fields, from metals to cosmetics. ★ The first 100 applicants will receive a free "Technical Data DVD"! The case study collection is available for [PDF download], and those who wish to receive the DVD can apply through [Contact Us]. 【Here are some examples included!】 ■ Uniform dispersion through wet high-pressure dispersion ■ Functional coating through high-pressure dispersion ■ Surface treatment of glass fibers ■ Creation of functional fine particles through wet high-pressure grinding ◎ For more details, please refer to the PDF materials or feel free to contact us.

• Emulsifier/Disperser

We are currently offering a catalog of case studies on wet-type ultra-high-pressure cavitation mills. The effects of cavitation generated by ultra-high-pressure pumps enable contamination-free nano-dispersion. The case studies are filled with applications of nano-slurries, including ceramics, carbon nanotubes, and nano-coating technologies. 【Features】 - Stable mixing, emulsification, and dispersion that prevent sedimentation and separation for extended periods. - Increased specific surface area and activation of particle surfaces improve reactivity, adsorption, and digestion/absorption rates. - A sharp particle size distribution enhances the effective use of expensive materials, reduces costs, and improves the yield of required ultrafine particles. *We are also conducting sample tests, so please feel free to consult with us.

• Other processing machines

High-Pressure Dry Jet Mill for Powder Nanomilling and Disintegration Ultrafine Milling System "Nano Grinding Mill" ■□■Features■□■ ■ By changing one of the high-pressure air/gas supply grinding nozzles arranged at evenly divided positions on the circumference, it allows for the supply of grinding materials from the same nozzle while simultaneously supplying air/gas, thereby enabling the formation and maintenance of a concentric swirling vortex within the grinding chamber. ■ Due to minimal material eccentricity, it allows for grinding at a higher concentration (higher processing volume). ■ It has a high dependence on particle-to-particle collision and grinding, enabling finer milling. ■ With fewer collisions against the walls, there is less material compaction and wear on the grinding chamber, which helps to suppress contamination. ■ The use of high-pressure air/gas allows for the milling of materials that could not be processed conventionally. ■ It effectively suppresses heat generation, resulting in minimal thermal impact on the materials.

• Other processing machines
• Crusher
• Fine grinding machine

We will exhibit at nano tech 2015. By passing a mixed fluid of "liquid + liquid" or "solid + liquid" through fine pores formed by a high-pressure pump with a special structure and a pressurized diamond disk, we create fine nanoparticles through localized high-impact forces generated by cavitation and various energy effects.

• Other processing machines