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An optical consists of an optically transparent substrate with a main surface, an anti-smudge coating covering the main surface, and the anti-smudge coating itself is at least partially covered by a temporary topcoat.
The EV anti-smudge coating is the result of the polymerization of a composition that contains a first component in amounts ranging from 55% to 80% by weight, preferably by weight.
45% to 20% by weight of a second component B chosen from linear fluorinated compounds, preferably perfluorinated compounds, with both ends of the chain comprising at least one silanol group or silanol precursor and their mixtures, for 100% by weight of the first component A and the second component B.
The first component A is chosen from fluorinated compounds with only one end of the chain comprising at least one silanol group or silanol precursor and their mixtures.
Together, the first component A, and the second component B make up at least 50% of the coating’s total weight. reference to eyeglass lenses.
The Global EV display anti-smudge coating market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
As a cutting-edge premium solution for surfaces specifically designed to preserve displays, optical components, and glass, DAIKIN created OPTOOL.
An efficient a EV display anti-smudge coating is produced by OPTOOL, a fluoropolymer having functional groups that make strong bonds with the treated substrate.
The value of a coating that is both hydrophobic and oleophobic cannot be overstated, regardless of whether the application calls for a cleaner surface, increased safety, increased slide, or decreased maintenance.
There are currently a plethora of alternatives available that offer optical qualities, water resistance, or cleanability. To balance all of these advantages in a single design is difficult, though.
The ground-breaking OPTOOL Series was created by DAIKIN with the intention of meeting this diverse variety of needs.
With a very thin layer, it offers the best surface defense. On the front and back of smartphones (which are made of glass and plastic, respectively), on eyeglasses, on touch screens for navigation systems, on high-gloss (such as piano black) surfaces in automobile interiors, and on any other glass or plastic surface, OPTOOL can be used to lessen fingerprinting.
