Overview
The DICOTA notebook anti-microbial filter offers a solution for protecting your screen while ensuring a clear visual experience. Designed to fit 16-inch wide displays, this filter features an adhesive installation that allows for a bubble-free application. The anti-reflective surface minimizes glare, while the scratch-resistant material enhances durability, making it suitable for work and leisure use. Its fingerprint-resistant coating helps keep the screen clean, so users can enjoy accurate color reproduction without interruptions caused by smudges or reflections.¦This product is touch capable and designed with a residue-free approach for easy removal. The self-adhesive property allows for straightforward installation, ensuring that the filter stays in place without hassle. Ideal for those who require a balance of protection and performance, the DICOTA filter is an accessory for notebook and tablet PC users who value screen preservation and clarity.
  • Scratch resistant to protect the display
  • Bubble-free and self-adhesive installation
  • Fingerprint-resistant coating to maintain clarity
  • Touch capable for seamless interaction
  • Accurate color reproduction for enhanced visuals
Durable Material Crafted from high-quality PET material, this filter ensures long-lasting protection against scratches, suitable for everyday use in various environments. Anti-reflective Surface The anti-reflective feature minimizes glare, allowing users to work comfortably in bright lighting conditions without compromising visibility. Easy Application With its bubble-free adhesive installation, this filter provides a hassle-free way to attach it to the display, ensuring a smooth and flawless finish. Clean and Clear The fingerprint-resistant coating keeps the screen looking pristine and free from smudges, ensuring a clear view for accurate work or entertainment. Perfect Fit Designed specifically for 16-inch wide displays, this filter fits securely and enhances the overall user experience by protecting the screen from potential damage.