The Kennedys are known for their iconic style, and now you can accentuate your own with the Zeal
Kennedy Sunglasses. Not only are they fashion-forward, they feature innovative technology that most other sunglasses couldn't even dream of. They have an E-Ilume lens, which replaces petroleum-based materials with a plant-based bonding agent. This lens is more Earth-friendly than most others on the market and it provides absolute protection from UVA, B and C as well as HEV light. The good news doesn't stop there. Each pair of the Zeal
Kennedy Sunglasses is polarized, offering beautiful, crystal clear vision and 99% glare reduction. A Z-Resin frame is made from the castor bean, instead of crude oil, reducing the amount of CO2 produced during manufacturing significantly. Look good, and feel good about it, in the Zeal
E-Ilume Lens - E-llume is the world's first lens using a plant-based bonding agent, replacing petroleum-based materials. With optimum clarity, this lens is proof that environmental initiatives are not a deterrent to an incredible optical experience. In conjunction with Zeal's Z-Resin frames, they're leading the way towards completely removing crude oil from sunglass production. E-llume lenses don't skimp on protection or prevention either, with complete protection from UVA, B and C as well as HEV light.
Polarized - Zeal's next level Polarized Lenses offer crystal clear vision and cut 99% of glare. This proprietary blend of materials allows them to improve the optics of the lens while exceeding ANSI Impact Resistance Standards.
Z-Resin Frame - All of Zeal's "plastic" sunglass frames are made from plant-based resins. This all started with Z-Resin, a proprietary, plant-based material from Switzerland. Instead of crude oil, it's made from the castor bean, an efficient, fast-growing perennial that is easy to grow, withstands drought, and thrives on marginal lands. Z-Resin doesn't compete with food crops and also significantly reduces the amount of CO2 released during manufacturing.
Hidden spring hinge
Complete protection from UVA, B and C and HEV light