English
Arabic
Chinese (Simplified)
Dutch
Esperanto
French
German
Greek
Italian
Japanese
Korean
Portuguese
Russian
Spanish
Urdu
In this week’s issue of Applied Physics Reviews, by AIP Publishing, scientists report the development of a new tactile-enhancement system based on a highly sensitive sensor. The sensor has remarkable sensitivity, allowing the wearer to detect the light brush of a feather, the touch of a flower petal, water droplets falling on a finger and even a wire too small to be seen.
The crack-based sensor used in this device was inspired by a spider’s slit organ, an idea first proposed by other researchers. This pattern of cracks in the exoskeleton allows the spider to detect small movements. In the same way, the ultrathin crack-based strain sensor, or UCSS, uses cracks formed in a thin layer of electrically conductive silver.
The UCSS is fabricated from several layers of flexible polymer film coated with silver. The entire system is draped and stretched over a curved surface, causing the silver to crack, and generating parallel channels that conduct electricity and are sensitive to movement.
The investigators found thinner layers of both the flexible film and the silver yielded sensors with higher sensitivity, while thicker ones exhibited a larger sensing range. To achieve a balance of these two effects, UCSSs with 15-micron thick polymer layers and 37-nanometer thick silver layers were the best choice.
The investigators also designed a visually aided tactile enhancement system, VATES, by connecting one or more UCSSs to a signal acquisition unit and visual readout device. They attached UCSSs to gloves, either on the fingertips or on the back of the hand, producing a type of electronic skin, or e-skin. Tiny movements, as small as a person’s pulse moving the tip of a finger, could be monitored.
The investigators suggest UCSSs could be used in a variety of ways: as highly sensitive electronic whiskers, which can be used to map wind flow patterns; as wearable sensors for heartbeat and pulse detection; or as sensors on prosthetics to enhance the sense of touch.
They also demonstrated their use when applied to various parts of the body. UCSSs were able to detect movement due to smiling, frowning and eye blinking.
Co-author Caofeng Pan said, “These results demonstrate the wide applications of our ultrathin strain sensor in e-skin and human-machine interfaces.”
###
The article, “Visually aided tactile enhancement system based on ultrathin highly sensitive crack-based strain sensors,” is authored by Jing Li, Rongrong Bao, Juan Tao, Ming Dong, Yufei Zhang, Sheng Fu, Dengfeng Peng and Caofeng Pan. The article will appear in Applied Physics Reviews on Feb. 18, 2020 (DOI: 10.1063/1.5129468). After that date, it can be accessed at https://aip.scitation.org/doi/10.1063/1.5129468.
ABOUT THE JOURNAL
Applied Physics Reviews features articles on significant and current topics in experimental or theoretical research in applied physics, or in applications of physics to other branches of science and engineering. The journal publishes both original research on pioneering studies of broad interest to the applied physics community, and reviews on established or emerging areas of applied physics. See https://aip.scitation.org/journal/are.
###
Original post https://alertarticles.info
