Near-infrared transmissive black dispersion
This dispersion is a fine-grained pigment that has two characteristics: black and transmits light in the near-infrared region. Therefore, it is possible to sense light in the near infrared region while having a function of hiding the base and light shielding. Another feature of this product is its compatibility with polyurethane resins, acrylic resins, ester resins, and other resins, as well as with various solvents and water. It is suitable for use in black paint or inks for electronic materials, black resists, IR sensors, etc.
UV(ultraviolet) transmissive black dispersion (under development)
This dispersion is a fine-grained pigment that has two characteristics: black and UV transmissive. Therefore, it is possible to sense UV and cure UV while hiding the underlayer and having a light-shielding function.
One of the features of this product is its compatibility with polyurethane resins, acrylic resins, ester resins, and other resins, as well as with various solvents.
These products are suitable for use as black paints or inks for electronic materials, black resists, UV curable inks, and UV sensors.
Conductive carbon dispersion liquids
Conductive carbon dispersion liquid is composed of carbon pigments dispersed in a dispersion liquid/solvent without using resins.
They are therefore compatible with many different resin solutions including urethane, acrylic, vinyl chloride and alkyd, as well as various solvents. They are capable of adding conductivity to objects to be molded or coated using them.
Insulating Carbon Dispersion Liquids
The products provide high insulation capability despite the nature of carbon black. It is an insulating carbon dispersion in which carbon pigments are dispersed in dispersant/solvent. They are compatible with many different resin solutions including urethane, acrylic and polyester, as well as various solvents.
Heat dissipation material dispersion (under development)
This is a dispersion in which a thermally conductive filler is dispersed with only a dispersant and a solvent. Coating film and molded body with good thermal conductivity can be obtained by adding to various resins and using them. Dispersions can also be used in water-based paints. Various customizations are available upon request!
UV (ultraviolet) cut dispersion (under development)
This is a dispersion liquid in which low refraction and high refraction materials are dispersed with only a dispersant and a solvent.
The refractive index of the resin can be adjusted by adding it.
It is highly transparent because it is microparticulated.
Some high-flexure dispersions are water-based, so they can be used in water-based paints.
High and low refractive index material dispersion (under development)
This is a dispersion liquid in which low refraction and high refraction materials are dispersed with only a dispersant and a solvent. The refractive index of the resin can be adjusted by adding it. It is highly transparent because it is microparticulated. Some high-flexure dispersions are water-based, so they can be used in water-based paints.
Conductive Titanium Oxide Dispersion(under development)
This is a conductive titanium oxide dispersion that uses no resin and disperses titanium oxide with a dispersant and solvent. It is compatible with various resin solutions such as polyester, urethane, and acrylic, and various solvents, and it is possible to impart conductivity to a molded body or an object to be coated using them.
Carbon Nanotube(CNT) Dispersion(under development)
This is a dispersion that uses no resin and disperses carbon nanotubes (CNTs) with a dispersant and solvent. Therefore, it is compatible with various resin solutions such as urethane, acrylic, fluorine, and polyester, and various solvents, and it is possible to impart conductivity to a molded body or an object to be coated using them.
Photocatalytic Titanium Oxide Dispersion(under development)
This is a dispersion that can be mixed with water-based coatings at any ratio. Addition allows the resin to have self-cleaning properties . It is highly transparent because it is microparticulated