Stick-on patch collects, analyzes and wirelessly transmits a variety of health metrics

August 11, 2017
A research team led by Professor Kyung-In Jang of Robotics Engineering collects, analyzes and diagnoses bio-signals wirelessly transmitted to mobile application from the soft electronic skin. Credit: DGIST

A new, electronic skin microsystem tracks heart rate, respiration, muscle movement and other health data, and wirelessly transmits it to a smartphone. The electronic skin offers several improvements over existing trackers, including greater flexibility, smaller size, and the ability to stick the self-adhesive patch—which is a very soft silicone about four centimeters (1.5 inches) in diameter—just about anywhere on the body.

The microsystem was developed by an international team led by Kyung-In Jang, a professor of robotics engineering at South Korea's Daegu Gyeongbuk Institute of Science and Technology, and John A. Rogers, the director of Northwestern University's Center for Bio-Integrated Electronics. The team described the new device in the journal Nature Communications.

The contains about 50 components connected by a network of 250 tiny wire coils embedded in protective silicone. The soft material enables it to conform to body, unlike other hard monitors. It wirelessly transmits data on movement and respiration, as well as electrical activity in the heart, muscles, eyes and brain to a smartphone application.

Unlike flat sensors, the tiny wires coils in this device are three-dimensional, which maximizes flexibility. The coils can stretch and contract like a spring without breaking. The coils and sensor components are also configured in an unusual spider web pattern that ensures "uniform and extreme levels of stretchability and bendability in any direction." It also enables tighter packing of components, minimizing size. The researchers liken the design to a winding, curling vine, connecting sensors, circuits and radios like individual leaves on the vine.

Optical image of the 3-dimensional network of helical coils as electrical interconnects for soft electronics. Credit: DGIST

The key to creating this novel microsystem is stretching the elastic silicone base while the tiny wire arcs, made of gold, chromium and phosphate, are laid flat onto it. The arcs are firmly connected to the base only at one end of each arc. When the base is allowed to contract, the arcs pop up, forming three-dimensional coils.

The entire system is powered wirelessly rather than being charged by a battery. The researchers also considered key electrical and mechanical issues to optimize the system's physical layout, such as sensor placement or wire length, to minimize signal interference and noise.

The electronic skin could be used in a variety of applications, including continuous health monitoring and disease treatment. Professor Jang states "Combining big data and artificial intelligence technologies, the wireless biosensors can be developed into an entire medical system which allows portable access to collection, storage, and analysis of health signals and information." He added "We will continue further studies to develop electronic skins which can support interactive telemedicine and treatment systems for patients in blind areas for medical services such as rural houses in mountain village." The microsystem could also be used in other areas of emerging interest, such as soft robotics or autonomous navigation, which the team is now investigating.

Assembly of 3D helical coils (right) geometrically imitating a structure of plant's vine (left). Credit: DGIST

Explore further: Wireless magnetic fields and actuator 'muscles' allow folding robots to move without batteries

More information: Kyung-In Jang et al. Self-assembled three dimensional network designs for soft electronics, Nature Communications (2017). DOI: 10.1038/ncomms15894

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