An invisible keyhole via transparent electronics
Hard times for burglars and safecrackers: Empa researchers have developed an invisible "keyhole" made of printed, transparent electronics. Only authorized persons know where to enter the access code.
Hard times for burglars and safecrackers: Empa researchers have developed an invisible "keyhole" made of printed, transparent electronics. Only authorized persons know where to enter the access code.
Materials Science
Mar 18, 2021
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6
Transparent electronics—such as head-up displays that allow pilots to read flight data while keeping their eyes ahead of them—improve safety and allow users to access data while in transit. For healthcare applications, ...
Nanomaterials
Dec 14, 2020
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8
A printable ink with an unsurpassed conductivity and transparency tradeoff has been developed by a KAUST team for use in solar panels, and for the novel blocking of electromagnetic waves.
Nanomaterials
Nov 2, 2020
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31
An international team of scientists led by researchers from the Laboratory of Nanomaterials at the Skoltech Center for Photonics and Quantum Materials (CPQM) has rationally designed a novel p-type flexible transparent conductor ...
Nanomaterials
Nov 13, 2019
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7
Transparent electronics are the future, according to researchers including José A. Flores-Livas and Miglė Graužinytė from the research group headed by Stefan Goedecker, Professor of Computational Physics at the University ...
General Physics
Jan 22, 2019
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6
Large-area, two-dimensional semiconductors wired through transparent oxide conductors produce high-performance see-through electronics.
Nanomaterials
Dec 4, 2017
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6
A team of researchers, led by the University of Minnesota, have discovered a new nano-scale thin film material with the highest-ever conductivity in its class. The new material could lead to smaller, faster, and more powerful ...
Nanomaterials
May 5, 2017
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Nanoscale "rivets" give graphene qualities that may speed the wonder material's adoption in products like flexible, transparent electronics, according to researchers at Rice University.
Nanomaterials
Jul 14, 2016
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288
Researchers have discovered a new stretchable, transparent conductor that can be folded or stretched and released, resulting in a large curvature or a significant strain, at least 10,000 times without showing signs of fatigue.
Nanophysics
Sep 21, 2015
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778
Light waves trapped on a metal's surface, called surface plasmons, travel farther than expected, up to 250 microns from the source. While this distance is just one-hundredth of an inch, it is far enough to possibly be useful ...
Nanophysics
Aug 11, 2015
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28