The Chelory AIO is a **TRUE All-In-One** Wrap around baby and GO!
NO STUFFING! NO FOLDING! NO SNAPPING IN AN INSERT!
The ultimate absorbing capabilities of the Chelory AIO cloth diaper are due to the unique combination of Bamboo and Zorb. Zorb is a revolutionary new product that can absorb 10 times it's weight in less than half a second -- that's 20 times faster than cotton. It has the amazing ability to wick moisture evenly throughout the entire absorbent surface area. The Chelory "SD" AIO is topped with Stay-Dry Wicking Jersey to keep baby feeling dry and comfortable. The Chelory "Organic" AIO is left with the natural Heavy Weight Organic Bamboo/Cotton Fleece exposed so only natural fibers touch baby's most sensitive skin.
The Chelory AI2 is a 2 piece system consisting of a re-usable outer shell and convenient Single Snap-In Inserts (sold separately). When a change is needed, just unsnap the insert and snap in a clean one. As long as the shell is not soiled, it can be used again! This equals LESS LAUNDRY! Also, since the shell and insert separate, they wash thoroughly and dry quickly!
Available in either Snap or Hook & Loop (velcro) Closure with 3x3 External Rise Snaps to make this diaper fit from about 12 pounds to at least 40pounds.
High quality, long lasting hook and loop (velcro) closures with innovative fold-back "SMART TABS" that are EASY TO USE and keep the hook from sticking to everything else in the laundry.
High quality plastic snap closures with innovative 3x3 External Rise Snap design allows for the rise snaps to snap into the bottom row of waist snaps allowing the diaper to get even smaller!
Tie Dye printed poly PUL makes this diaper waterproof and keeps baby's clothes clean and dry.
When drying the Chelory AIO style diapers, invert the absorbent looped soaker around the diaper. All those thirsty layers right next to each other can slow dry time. Under most circumstances hanging AIOs will be dry within 24 hours.
**All Chelory diapers come washed and READY-TO-USE but can take up to 10 wash/dry cycles to reach their maximum absorbency. |