Atomically thin perovskites boost for future electronics
WPI-MANA has developed the world's highest performance dielectric nanofilms using atomically thin perovskites. This technology may revolutionize the next-generation of electronics.
WPI-MANA has developed the world's highest performance dielectric nanofilms using atomically thin perovskites. This technology may revolutionize the next-generation of electronics.
Materials Science
Dec 27, 2017
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39
Toyohashi University of Technology researchers in collaboration with the Massachusetts Institute of Technology (MIT), have developed a new material capable of retaining high transmissivity after thermal treatment at 850°C ...
Materials Science
Nov 28, 2017
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4
An international team of researchers has examined the optical and dielectric properties of thin macroscopic films based on single-walled carbon nanotubes and obtained an explanation for the metallic nature of their conductivity ...
Nanomaterials
Nov 21, 2017
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7
New findings reveal deposits on Mars that could be interpreted to be ice-rich may contain little or no ice at all, based on an analysis of radar sounder data for Meridiani Planum—an area on the planet's equator being explored ...
Space Exploration
Sep 26, 2017
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103
The properties of materials can behave in funny ways. Tweak one aspect to make a device smaller or less leaky, for example, and something else might change in an undesirable way, so that engineers play a game of balancing ...
Optics & Photonics
Aug 25, 2017
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161
An antenna is a device capable of effectively transmitting, picking up, and redirecting electromagnetic radiation. Typically, antennas are macroscopic devices operating in the radio and microwave range. However, there are ...
Optics & Photonics
Jul 24, 2017
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2
Scientists from the Lomonosov Moscow State University, together with their Russian and foreign colleagues, have achieved the first direct measurements of giant electromagnetic fields emerging in dielectric particles with ...
Optics & Photonics
Jul 10, 2017
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27
Powerful solar storms can charge up the soil in frigid, permanently shadowed regions near the lunar poles, and may possibly produce "sparks" that could vaporize and melt the soil, perhaps as much as meteoroid impacts, according ...
Space Exploration
Jan 6, 2017
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1086
The capacity of various noble metals and dielectrics to enhance fluorescence has been compared by A*STAR researchers, with a view for more sensitive technologies to create new applications in biology and medicine.
Nanophysics
Dec 14, 2016
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7
A multi-institutional research team has developed a new electroactive polymer material that can change shape and size when exposed to a relatively small electric field. The advance overcomes two longstanding challenges regarding ...
Polymers
Nov 9, 2016
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12