Anti-fog film
The super-hydrophilic anti-fog film uses special nanotechnology to flatten water droplets of different sizes, so that the line of sight is no longer blurred by light scattering. Unlike other anti-fog films, our anti-fog films have high weather resistance, anti-fog properties, and abrasion resistance, achieving a high level of performance and durability.
Hydrophilic film
The super-hydrophilic membrane uses special nanotechnology to disperse water droplets of various sizes. Unlike other hydrophilic membranes, CQ superhydrophilic membranes have excellent weather resistance, can last for more than one year, and do not require any special storage conditions. The film also has coating development possibilities that can be adjusted and adapted to customer requirements by controlling the diffusion rate and area.
High wear-resistant hard-coating
Traditional plastic substrate has poor hardness, and its surface is easily scratched. Coating with a scratch-resistant hard-coating can successfully increase the surface hardness of the plastic. HSM product curing process is simple. The reaction will be completed by applying thermal, IR, or UV light to dry the surface of the paint
Anti-glare hard-coating
Generally, the surface of plastic or glass has a high gloss. When used outdoors or with a strong backlight, the eyes will feel glare and damage the eyes. In addition to glass, many brands of displays currently replace glass with plastic, most commonly PMMA; the United States will legislate, education will be fully digitized, and students under the age of 12 must fully use PMMA touch panels with anti-glare treatment. direction. In addition, display protective film or explosion-proof film is also one of the main applications.
High wear-resistant and anti-fingerprint hard-coating
The surface hardness of conventional traditional plastic substrates is usually poor, making them prone to scratches and damage. However, through hardening and anti-soiling treatment, these drawbacks of traditional plastic substrates can be overcome, enhancing their advantages and widening their application possibilities. Surface hardening and anti-soiling technology applied to plastics do not alter the original substrate characteristics. When combined with our company's solutions and techniques, this process ensures stable craftsmanship and high yields.
Anti-fog hard-coating
Traditional plastic substrate has poor hardness, and its surface is easily scratched. Coating with a scratch-resistant hard-coating can successfully increase the surface hardness of the plastic. Water contact angle of traditional plastic is over 50°, which fog could easily condense on the plastic surface. Super-hydrophilic surface coated plastic substrate has characteristics of low water contact , easy-to-dew condensation on the surface, and anti-fog effect. Another super-hydrophilic coated plastic substrate has a non-sticky effect. The surface which placed in outdoor could get dirt easily and
Photocatalyst coating
Photocatalyst depends on light energy to achieve disinfection, sterilization, and self-cleaning effect. Current photocatalysts made of sintered powders are mostly dissolved in a solution of the appropriate dispersing solvent. However, the adhesion on glass and transmittance are usually poor. Giant Nano develops the photocatalyst which has overcome disadvantages of adhesion and penetration degree. Light can effectively filter out and reflect through the product even for short wavelenght light source. The application of photocatalyst is mainly on glass, but it can also apply to other substrate
Photocatalyst coating foaming ceramics
Photocatalyst depends on light energy to achieve disinfection, sterilization, and self-cleaning effect. Light can effectively filter out and reflect through the product even for short wavelength light source. Traditional photocatalyst coating with organic binder should be short life time, because photocatalyst decompose organic binder. GiantNano photocatalyst coating with inorganic binder on foaming ceramics is stable under UV light exposure, even UVC and UVB light. GiantNano Photocatalyst coating foaming ceramics can decompose total volatile organic compound and harmful gases, such as formald
Photocatalyst coating metal mesh
Photocatalyst depends on light energy to achieve disinfection, sterilization, and self-cleaning effect. Light can effectively filter out and reflect through the product even for short wavelength light source. Traditional photocatalyst coating with organic binder should be short life time, because photocatalyst decompose organic binder. GiantNano photocatalyst coating with inorganic binder on foaming ceramics is stable under UV light exposure, even UVC and UVB light. GiantNano Photocatalyst coating foaming ceramics can decompose total volatile organic compound and harmful gases, such as formald