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Flexible and transparent pressure sensor

Accurately measures pressure even when distorted

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Graduate School of Engineering / Faculty of Engineering
2016/03/07

© 2016 Someya Laboratory.The pressure sensors wraps around and conforms to the shape of the fingers while still accurately measuring pressure distribution.

Pressure sensor
The pressure sensors wraps around and conforms to the shape of the fingers while still accurately measuring pressure distribution.
© 2016 Someya Laboratory.

Researchers at the University of Tokyo working with American colleagues have developed a transparent, bendable and sensitive pressure sensor. Healthcare practitioners may one day be able to physically screen for breast cancer using pressure-sensitive rubber gloves to detect tumors, owing to this newly developed sensor.

Conventional pressure sensors are flexible enough to fit to soft surfaces such as human skin, but they cannot measure pressure changes accurately once they are twisted or wrinkled, making them unsuitable for use on complex and moving surfaces. Additionally, it is difficult to reduce them below 100 micrometers thickness because of limitations in current production methods.

To address these issues, an international team of researchers led by Dr. Sungwon Lee and Professor Takao Someya of the University of Tokyo’s Graduate School of Engineering has developed a nanofiber-type pressure sensor that can measure pressure distribution of rounded surfaces such as an inflated balloon and maintain its sensing accuracy even when bent over a radius of 80 micrometers, equivalent to just twice the width of a human hair. The sensor is roughly 8 micrometers thick and can measure the pressure in 144 locations at once.

The device demonstrated in this study consists of organic transistors, electronic switches made from carbon and oxygen based organic materials, and a pressure sensitive nanofiber structure. Carbon nanotubes and graphene were added to an elastic polymer to create nanofibers with a diameter of 300 to 700 nanometers, which were then entangled with each other to form a transparent, thin and light porous structure.

“We’ve also tested the performance of our pressure sensor with an artificial blood vessel and found that it could detect small pressure changes and speed of pressure propagation,” says Lee. He continues, “Flexible electronics have great potential for implantable and wearable devices. I realized that many groups are developing flexible sensors that can measure pressure but none of them are suitable for measuring real objects since they are sensitive to distortion. That was my main motivation and I think we have proposed an effective solution to this problem.”

Press release

Paper

Sungwon Lee, Amir Reuveny, Jonathan Reeder, Sunghoon Lee, Hanbit Jin, Qihan Liu, Tomoyuki Yokota, Tsuyoshi Sekitani, Takashi Isoyama, Yusuke Abe, Zhigang Suo, and Takao Someya, "A Transparent, Bending Insensitive Pressure Sensor", Nature Nanotechnology Online Edition: 2016/01/26 (Japan time), doi: 10.1038/nnano.2015.324.
Article link (Publication)

Links

Graduate School of Engineering

Electrical and Electronic Engineering and Information Systems, Graduate School of Engineering

Organic Transistor Laboratory, Electrical and Electronic Engineering and Information Systems, Graduate School of Engineering

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