 What we have made here is a self-assembling material that has the ability to transport liquids from macro-scaled distances, centimetres for example. This is actually useful in the field of microfluidics, micro-robotics or even technologies such as biosensing. This material is a self-assembling, self-pumping capillary that actually delivers fluid from one point to another up to a macro-scale of centimetres in length. The two layers comprise of a generous design. So the first layer is actually a superhydrophilic layer which sucks water into the material, delivering it to the destination. The second layer is actually a superhydrophobic layer, which is a water-hating layer that prevents wet through of the material during the delivery. So in such, these two materials work together to create this self-delivery system. We titled the paper Mimosa Origami because of how the Mimosa plant reacts to a pinpoint stimulus, leading to a roll-up effect which is very alike our material.