Cannondale SuperSix EVO Neo 2 2021 Electric Road Bike – Grey

£5,500.00

SKU: SK-91778702430 Categories: , ,

About the Cannondale Supersix Neo 2 Hills flatten. Headwinds vanish. Speed prevails. This is everything you love about road riding – amplified. This is a machine built for speed. Aerodynamically efficient design, sleek integration and Ballis Tec carbon construction keep the drag low, the weight minimal and the velocity high. A lightweight motor in the rear hub and small battery in the frame provide the perfect amount of boost to enhance your ride, not overwhelm it. Racy geometry and stiffness for explosive speed. Refined micro-suspension and big tyre clearance for surprising smoothness. It all adds up to precise handling and a ride-feel that's out of sight. The Mahle ebikemotion drive system uses a lightweight 250W rear hub motor and hidden 250Wh battery to provide three levels of "just-right" support. It's there when you need it, nearly imperceptible when you don't. Key Features Ballis Tec Carbon Frame for stiff but light construction allows you to convert more of your power into speed Ballis Tec Carbon Fork is engineered to flex to absorb shock and vibration Shimano Ultegra 22 Speed Di2 Drivetrain gives you the fantastic smoother, more precise electronic shifting experience, with improved durability for long lasting performance Shimano Ultegra Di2 hydraulic disc brakes give powerful, controllable and consistent stopping power with less effort Vittoria Rubino Pro Bright Black, 700 x 25c Tyres for the fastest speed on the tarmac About Cannondale Cannondale have come a long way since our birth in a crowded loft above a pickle factory in 1971. From introducing the cycling industry's first bicycle trailer, the Bugger, and added successful cycling apparel and accessory lines while earning a strong reputation for innovation and quality. Cannondale introduced its first bicycle, a Touring model, in 1983. They raised the cycling world's eyebrows by building our bicycles around handcrafted, oversized aluminium frames that were both lighter and more flex-resistant t