The future of electronics is stretchy
Stretchable electronic circuits are critical for soft robotics, wearable technologies, and biomedical applications. The current ways of making them, though, have limited their potential.
Stretchable electronic circuits are critical for soft robotics, wearable technologies, and biomedical applications. The current ways of making them, though, have limited their potential.
Materials Science
Feb 19, 2021
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201
Researchers at Osaka University synthesized twisted molecular wires just one molecule thick that can conduct electricity with less resistance compared with previous devices. This work may lead to carbon-based electronic devices ...
Nanomaterials
Dec 29, 2020
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2306
Researchers at the University of Tsukuba have created a new carbon-based electrical device, π-ion gel transistors (PIGTs) by using an ionic gel made of a conductive polymer. This work may lead to cheaper and more reliable ...
Materials Science
Dec 16, 2020
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145
Nagoya University researchers have synthesized a unique molecule with a surprising property: It can absorb near infrared light. The molecule is made only of hydrogen and carbon atoms and offers insights for making organic ...
Materials Science
Oct 16, 2020
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55
A device that can separate and recombine pairs of electrons may offer a way to study an unusual form of superconductivity, according to RIKEN physicists. This superconducting state would involve exotic particles called Majorana ...
Superconductivity
Dec 27, 2019
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470
Researchers at The University of Manchester discovered that atomically- thin micas—the name given to a type of common mineral found in soil—are excellent proton conductors. This surprising result is important for the ...
Nanomaterials
Sep 2, 2019
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1050
A team of researchers affiliated with several institutions in the Republic of Korea and the U.S. has developed a means for creating a new kind of stretchable conductor. In their paper published in the journal Science Advances, ...
Germanene is a 2-D material derived from germanium and related to graphene. As it is not stable outside the vacuum chambers in which is it produced, no real measurements of its electronic properties have been made. Scientists ...
Nanomaterials
Feb 8, 2019
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212
University of Groningen physicists have induced magnetism in platinum with an electric field created by a paramagnetic ionic liquid. As only the surface of the platinum is affected, this creates a switchable 2-D ferromagnet. ...
General Physics
Apr 6, 2018
1
467
Electrically conductive films that are optically transparent have a central role in a wide range of electronics applications, from touch screens and video displays to photovoltaics. These conductors function as invisible ...
Materials Science
Feb 12, 2018
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306