The gorgeous Crystal Palace case provides up to 13 ft (4m) of drop protection.1 Crystal Palace is made with D3O® Crystalex, the clearest, thinnest, most advanced impact protection. Crystal Clear Impact Protection The Crystal Palace case unites sleek, transparent design and unbeatable drop protection. The D3O® Crystalex provides up to 13ft/4m of drop protection and shows off the sleek lines of your phone. This slim, lightweight case has an improved grip and an antimicrobial treatment.** Crystal Palace Snap is the choice for your top-of-the-line phone. 13 ft of Drop Protection Made with D3O® Crystalex, Crystal Palace provides 13 feet (4 meters) of drop protection. D3O Crystalex is the most transparent protective material for phone cases. The D3O material hardens on impact, dissipating shock and protecting your device. Transparent Finish D3O® Crystalex, used in the Crystal Palace case, won’t yellow over time. It’s resistant to dye transfer, so your case retains its beautiful transparent finish. 5G Compatible Today’s world moves fast, and you need to stay connected to keep up. Crystal Palace is 5G compatible, so you don’t have to compromise reliable case protection to get a clear, strong signal. Wireless Charging Compatible Wireless charging is a must in a world that never stops. All Gear4 cases are wireless charging compatible which means you can drop your phone on any wireless charging pad for a quick charge without removing your case. Contains Antimicrobial Treatment Crystal Palace contains an antimicrobial agent with properties built in to protect your case by inhibiting the growth of odor-causing bacteria and guarding against degradation from microorganisms. Contains Recycled Plastics Crystal Palace incorporates Tritan™ Renew, 50% certified recycled content which diverts plastic waste from landfills and oceans and reduces greenhouse gas emissions. *Mil Std 810G 516 **Contains an antimicrobial agent with properties built in to protect your case by inhibiting the growth of odor-causing bacteria and guarding against degradation from microorganisms.