Electronic Skins – Flexible and Amazing

From Nature: Figure 1 | Imperceptible electronic foil. a, Illustration of a thin large-area active-matrix sensor with 12312 tactile pixels. b, Ultrathin plastic electronic foils are extremely lightweight (3 g m22); they float to the ground more slowly than a feather and are therefore virtually unbreakable. Scale bar, 2 cm.c, At only 2mm thickness, our devices are ultraflexible and can be crumpled like a sheet of paper. Scale bar, 1 cm.

From Nature: Figure 1 | Imperceptible electronic foil. a, Illustration of a thin large-area active-matrix sensor with 12312 tactile pixels. b, Ultrathin plastic electronic foils are extremely lightweight (3 g m22); they float to the ground more slowly than a feather and are therefore virtually unbreakable. Scale bar, 2 cm.c, At only 2mm thickness, our devices are ultraflexible and can be crumpled like a sheet of paper. Scale bar, 1 cm. Click above to read the full paper.

Ok, so my mind has just been blown. We all know flexible electronics are on their way. It isn’t all that innovative to imagine, but heck, when you actually see a picture of a super thin conductive surface working, it is pretty amazing.

Lightweight and Indestructible

Nature just posted a huge article on a thin film sensory material with impressive images of it floating to the ground like a feather, or pressed into the roof of a mouth (cast) to take up the exact form and gather information. It is hard not to get excited! The image with the feather is amazing for the concept that future electronics could be extremely tough, not because they are built out of bullet proof material, but because it is so light it will never fall hard enough to break. Now that is some divergent thinking.

Thin Film Electronics 2

From Nature: the image of the ring and sensory output gives everything context. Not sure what the graphs mean, but they look pretty cool.

Smart Surfaces Everywhere

Read the rest of this entry »

Advertisements