Picture a tablet that you can fold into the size of a phone to put in your pocket, or an artificial skin that can sense your body's movements and vital signs. A new, inexpensive sensor developed at the University of British Columbia could help make advanced devices like these a reality.
The sensor uses a highly conductive gel sandwiched between layers of silicone that can detect different types of touch, including swiping and tapping — even when it is stretched, folded or bent. This feature makes it suited for foldable devices of the future.
According to researchers, there are sensors that can detect pressure, such as the iPhone's 3-D Touch, and some that can detect a hovering finger, like Samsung's AirView. There are also sensors that are foldable, transparent and stretchable. This device combines all those functions in one compact package.
The prototype, described in a recent paper in Science Advances, measures 5 centimeters-by-5 centimeters, but could be easily scaled up as it uses inexpensive, widely-available materials, including the gel and silicone.
Researchers believe it is possible to make a room-sized version of this sensor inexpensively, putting sensors on the wall, on the floor, or over the surface of the body — almost anywhere that requires a transparent, stretchable touch screen. And because it's cheap to manufacture, it could be embedded cost-effectively in disposable wearables like health monitors.
The sensor could also be integrated in robotic "skins" to make human-robot interactions safer. Currently, machines are kept separate from humans in the workplace because of the possibility that they could injure humans. If a robot could detect our presence and be “soft” enough that they don't damage us during an interaction, we could safely exchange tools with them, they could pick up objects without damaging them, and they could safely probe their environment," said the researchers.