Wearable electronics adhered to skin monitor a variety of human activities but finding the best way to stick a device to the body has been a challenge. Now, a team of researchers reports the development of a graphene-based adhesive biosensor inspired by octopus "suckers." They report their findings in ACS Applied Materials & Interfaces.
For a wearable sensor to be truly effective, it must be flexible and adhere to wet and dry skin while remaining comfortable for the user, so choice of substrate, the material that the sensing compounds rest upon, is crucial. Woven yarn is popular, but sometimes doesn't fully contact the skin, especially if that skin is hairy. Typical yarns and threads are also vulnerable to wet environments. Adhesives can lose their grip underwater, and in dry environments they can be so sticky that they can be painful to peel off. To overcome these challenges, Changhyun Pang, Changsoon Choi, and colleagues worked to develop a low-cost, graphene-based sensor with a yarn-like substrate that uses octopus-like suckers to adhere to skin.
The researchers coated an elastic polyurethane and polyester fabric with graphene oxide and soaked in L-ascorbic acid to aid in conductivity while still retaining its strength and stretch. From there, they added a coating of a graphene and poly(dimethylsiloxane) (PDMS) film to form a conductive path from the fabric to the skin. Finally, they etched tiny, octopus-like patterns on the film. The sensor could detect a wide range of pressures and motions in wet and dry environments. The device also could monitor an array of human activities, including electrocardiogram signals, pulse, and speech patterns, demonstrating its potential use in medical applications.