High-frequency and intrinsically stretchable polymer diodes

High-frequency and intrinsically stretchable polymer diodes

Skin-like intrinsically stretchable soft electronic devices are essential to realize next-generation remote and preventative medicine for advanced personal healthcare 1 – 4 . The recent development of intrinsically stretchable conductors and semiconductors has enabled highly mechanically robust and...

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Bibliographic Details
Published in:Nature (London) Vol. 600; no. 7888; pp. 246 - 252
Main Authors: Matsuhisa, Naoji, Niu, Simiao, O’Neill, Stephen J. K., Kang, Jiheong, Ochiai, Yuto, Katsumata, Toru, Wu, Hung-Chin, Ashizawa, Minoru, Wang, Ging-Ji Nathan, Zhong, Donglai, Wang, Xuelin, Gong, Xiwen, Ning, Rui, Gong, Huaxin, You, Insang, Zheng, Yu, Zhang, Zhitao, Tok, Jeffrey B.-H., Chen, Xiaodong, Bao, Zhenan
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 09-12-2021
Nature Publishing Group
Subjects:
140/131
140/146
639/166/987
639/301/923/3931
Carrier frequencies
Circuits
Conductors
Cracks
Diodes
Electrochromism
Electrodes
Electronic circuits
Electronic devices
Electronic equipment
Electronics - instrumentation
Humanities and Social Sciences
Humans
multidisciplinary
Nanomaterials
Nanotechnology
Nanowires - chemistry
Optoelectronic devices
Pixels
Polymers
Polymers - chemistry
Radio frequency
Science
Science & Technology - Other Topics
Science (multidisciplinary)
Semiconductors
Sensors
Silver - chemistry
Skin
Wearable Electronic Devices
Wireless Technology - instrumentation
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Description
Summary:Skin-like intrinsically stretchable soft electronic devices are essential to realize next-generation remote and preventative medicine for advanced personal healthcare 1 – 4 . The recent development of intrinsically stretchable conductors and semiconductors has enabled highly mechanically robust and skin-conformable electronic circuits or optoelectronic devices 2 , 5 – 10 . However, their operating frequencies have been limited to less than 100 hertz, which is much lower than that required for many applications. Here we report intrinsically stretchable diodes—based on stretchable organic and nanomaterials—capable of operating at a frequency as high as 13.56 megahertz. This operating frequency is high enough for the wireless operation of soft sensors and electrochromic display pixels using radiofrequency identification in which the base-carrier frequency is 6.78 megahertz or 13.56 megahertz. This was achieved through a combination of rational material design and device engineering. Specifically, we developed a stretchable anode, cathode, semiconductor and current collector that can satisfy the strict requirements for high-frequency operation. Finally, we show the operational feasibility of our diode by integrating it with a stretchable sensor, electrochromic display pixel and antenna to realize a stretchable wireless tag. This work is an important step towards enabling enhanced functionalities and capabilities for skin-like wearable electronics. A stretchable anode, cathode, semiconductor and current collector have been developed to create stretchable diodes that can operate at megahertz frequencies for use in wirelessly operated, skin-like wearable electronics.
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USDOE
AC02-76SF00515
ISSN:0028-0836
1476-4687
DOI:10.1038/s41586-021-04053-6