World’s first fingertip-mounted sensor that maintains user’s sensitivity

Ultrathin nanomesh sensor to measure sense of touch

A layer of polyurethane nanofibers serves as a passivation and carrier layer. This is followed by an ultra-thin layer of gold mesh, an intermediate layer of parylene-coated polyurethane nanofibers and finally another layer of gold mesh. A thin top-layer of polyurethane and polyvinyl alcohol nanofibers mechanically protects the four layers of the sensor.

“Both nanomesh layers were made by a process called electro spinning,” Someya says. The polyurethane fibers are between 200 to 400 nanometers thick, about two hundreds the thickness of a human hair.

The other two layers are a stencil-like network of lines that form the functional electronic component of the sensor. They are made from gold and use a supporting frame of polyvinyl alcohol, a polymer which is also used for contact lenses. After the manufacturing process, the polymer is washed away to leave only the gold traces it was supporting.

The researchers performed a rigorous set of tests on the sensors with the help of 18 participants. All of them confirmed that the sensors were imperceptible and affected neither the ability to grip objects through friction, nor the perceived sensitivity compared to performing the same task without a sensor attached. This was exactly the result the researchers were looking for.

“In the past, we only had relatively rigid measuring instruments that interfere with the sense of touch” Franklin says. “Think about your pet at home, perhaps your cat or dog. Which instrument is both soft and sensitive enough to measure how much pressure you use when caressing it? Until now this was impossible, but with this new nanomesh sensor applied on our fingers we suddenly can.”  

One way the novel applications could be used is the digital archiving of delicate craftwork by artisans. “Let’s say you want to study how to make a handcrafted watch,” says Franklin. “How could we capture the ability of the incredible talented watchmakers for posterity? We would like to know how they actually pick up and manipulate the tiny pieces while building the watch. By applying the ultrathin nanomesh sensor on the fingertips, we could measure the force and record it without influencing the finger’s sense of touch.”

In fact, this is the first time in the world that a fingertip-mounted sensor with no effect on skin sensitivity has been successfully demonstrated. And the sensor maintained its performance as a pressure sensor even after being rubbed against a surface with a force equivalent to atmospheric pressure, 300 times without breaking, the scientists discovered. “This shows that we can actually measure the manipulation of a huge range of objects – this has never been possible before.”