JAPAN-SCIENCE-ELECTRONICS

This picture taken on June 24, 2015 shows Naoji Matsuhisa, a doctoral student of Japan's University of Tokyo showing a printed elastic electric conductor on a stretchable fabric which can be stretched to more than three times its original length and a bottle of ink (R) in Tokyo. University of Tokyo professor Takao Someya developed the new high conductivity ink containing silver flakes, organic solvent, fluorine rubber and fluorine surfactant. The new ink was developed for the wearable devices with biometric sensors such as ECG, EMG and pulse oximeter. AFP PHOTO / Yoshikazu TSUNO (Photo credit should read YOSHIKAZU TSUNO/AFP via Getty Images)
This picture taken on June 24, 2015 shows Naoji Matsuhisa, a doctoral student of Japan's University of Tokyo showing a printed elastic electric conductor on a stretchable fabric which can be stretched to more than three times its original length and a bottle of ink (R) in Tokyo. University of Tokyo professor Takao Someya developed the new high conductivity ink containing silver flakes, organic solvent, fluorine rubber and fluorine surfactant. The new ink was developed for the wearable devices with biometric sensors such as ECG, EMG and pulse oximeter. AFP PHOTO / Yoshikazu TSUNO (Photo credit should read YOSHIKAZU TSUNO/AFP via Getty Images)
JAPAN-SCIENCE-ELECTRONICS
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Editorial #:
478531720
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AFP
Date created:
24 June, 2015
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Source:
AFP
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AFP
Object name:
Hkg10191305
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