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Switchable Optical Nanoantennas Made From a Conducting Polymer

Switchable Optical Nanoantennas Made From a Conducting Polymer

Around billions of nanodisks deposited onto area of 1 cm2. Each one of them reacts to the incident light and creates plasmons. Credit: Conceptualized Creating switchable plasmons in plastics: Conductive polymer nanoantennas for dynamic organic plasmonics. Researchers in the Organic Photonics and Nano-optics group at the Laboratory of Organic [...]Click here to view original web page at scitechdaily.com

Nano-chemicals Market 2019 Analysis, Growth, Vendors, Shares, Drivers, Challenges with Forecast to 2025

Nano-chemicals Market 2019 Analysis, Growth, Vendors, Shares, Drivers, Challenges with Forecast to 2025

Global Nano-chemicals market 2019 by manufacturers, regions, type and application, forecast to 2024 its new name recently announced by Researchunt. As per the industry professional’s analysis are basics on past information and future opportunities, the Global Nano-chemicals market prophesy period 2019 to 2024. Sample report can be viewed in [...]Click here to view original web page at vaporblash.com

What is nano THC? How nanoemulsions create new cannabis building blocks

What is nano THC? How nanoemulsions create new cannabis building blocks

(Courtesy of Axiomm) This article is brought to you by Axiomm Technologies , enhancing products with consumption nanotechnology. It’s a scientific fact so embedded in our brains that it’s become an adage: oil and water don’t mix. Except in the case of cannabis nanoemulsions, they do. Thanks to nanotechnology, [...]Click here to view original web page at www.leafly.com

Conductive polymer nanoantennas for dynamic organic plasmonics

Conductive polymer nanoantennas for dynamic organic plasmonics

Around billions of nanodisks deposited onto area of 1 cm2. Each one of them reacts to the incident light and creates plasmons. Credit: Linköping University Researchers in the Organic Photonics and Nano-optics goup at the Laboratory of Organic Electronics have developed optical nanoantennas made from a conducting polymer. The [...]Click here to view original web page at phys.org

A tech jewel: Converting graphene into diamond film

A tech jewel: Converting graphene into diamond film

Synthesis of the thinnest possible diamond-like material starting from bilayer graphene and without high pressure Can two layers of the “king of the wonder materials,” i.e. graphene, be linked and converted to the thinnest diamond-like material, the “king of the crystals”? Researchers of the Center for Multidimensional Carbon Materials [...]Click here to view original web page at bioengineer.org