Successfully developed a 10 millisecond response stretch thermometer

Scientists have developed a flexible, stretchy thermal sensor that is simple in construction and responds very quickly to temperature changes.

Scientists have developed a flexible, stretchy thermal sensor that is simple in construction and responds very quickly to temperature changes.

In the future, soft robots, smart clothing, and biocompatible medical devices will need to integrate soft sensors that can stretch and twist according to the device or wearer. The challenge here is that most of the components used in traditional sensors are stiff.

Picture 1 of Successfully developed a 10 millisecond response stretch thermometer

Test using soft tongs with built-in thermometer to measure the temperature of hot boiled eggs.

However, a team at Harvard University's John A. Paulson School of Engineering and Applied Science (SEAS) has developed a soft, stretchy, self-powered thermometer that can be integrated into electronics and soft robots, Phys reported on January 24. The new study was published in the journal Proceedings of the National Academy of Sciences.

"We develop soft temperature sensors with high sensitivity and fast response times, opening up new possibilities for creating human-machine interfaces and soft robotics in the fields of medical, engineering and entertainment," said Zhigang Suo, a professor of mechanical engineering and materials at SEAS and a member of the research team.

The thermometer consists of three simple components: an electrolyte, an electrode, and a dielectric material for separation. The electrolytic/dielectric interface accumulates ions while the dielectric/electrode interface accumulates electrons. The charge imbalance between them creates an ion cloud in the electrolyte. As the temperature changes, the ion cloud changes in thickness and a voltage is generated. Voltage is sensitive to temperature but not to expansion.

"The design is so simple that there are many ways to adjust the sensor, depending on what you're using it for. You can choose different materials, arrange in different ways, and optimize for each task." , Yecheng Wang, postdoctoral fellow at SEAS, research team member, explains.

By arranging the electrolyte, dielectric and electrode in different structures, the team developed four designs for the temperature sensor. In one test, they integrated the sensor into a soft tong and measured the temperature of a hot hard-boiled egg. The sensors are more sensitive than traditional thermoelectric thermometers, which can respond to temperature changes in as little as 10 milliseconds.

"We've demonstrated that these sensors can be made compact, stable, even transparent. Depending on the material used, the thermometer can measure temperatures as high as 200 degrees Celsius or as low as lows. to -100 degrees Celsius," Wang said.

Update 04 February 2022
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