An exact expression for a key process needed in many quantum technologies has been derived by a…
Tightening the math behind a key quantum processAn exact expression for a key process needed in many…
Ultrafast plasmon-enhanced magnetic bit switching at the nanoscale
Researchers from Max Born Institute have demonstrated a successful way to control and manipulate nanoscale magnetic bits the building blocks of digital data using an ultrafast laser pulse and plas…
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Marker ink transforms into graphene-based electric circuit for low-cost sensors
The first case of an electric circuit created using a simple marker and a laser beam shows that simple and sustainable materials can generate innovative applications on any surface, such as a coffee cup.
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Tumor microenvironment dynamics: the regulatory influence of long non-coding RNAs
The tumor microenvironment (TME) is a complex and dynamic network consisting of tumor cells, immune cells, stromal cells, extracellular matrix (ECM), cytokines, and growth factors, all interacting to…
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Next-generation drug delivery innovation! DGIST develops precision therapeutics using exosomes
A joint research team led by Professor Kyungmoo Yea from the Department of New Biology and Professor Daeha Seo from the Department of Chemistry and Physics at DGIST (President Kunwoo Lee) has develope…
Enhancing power factor of p- and n-type single-walled carbon nanotubes
Single-walled carbon nanotubes (SWCNTs) possess advantages of high thermal stability, high flexibility, lightweight, easy controllable doping level. Their thermoelectric properties are almost comparab…
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Portable Raman analyzer detects hydrogen leaks from a distance: Device senses tiny concentration changes of hydrogen in ambient air, offering a dependable way to detect and locate leaks in pipelines and industrial systems
Researchers have developed a new portable Raman analyzer that can accurately measure very low concentrations of hydrogen gas in ambient air. The instrument could be useful for detecting hydrogen leak…
Fullerene Applications in Biomedicine: A Far reaching Survey – QuantoNano
Fullerene Applications in Biomedicine: An Exhaustive Survey – QuantoNano Fullerene can be available in various sizes and shapes relying on the class they have a place with. Nonetheless, it generally presents as a pentagon or a hexagon. Fullerene shows wonderful properties and qualities on account of which their applications have just expanded throughout the last
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Indium Phosphide Quantum Specks: Progressions in Properties, Amalgamation, and Applications – QuantoNano
Indium Phosphide Quantum dabs, which are made of colloidal quantum specks, have gathered a ton of consideration throughout the course of recent years as a possibly more secure substitute for cadmium-based quantum spots. They have had the option to blend various pieces, heterojunctions, dopants, and ligands with short discharge line widths, great quantum yields near
Outfitting the Force of Graphene as Radar Engrossing Material- QuantoNano
The exceptional properties and predominant execution of graphene render it a promising radar retaining material, enthralling the interest of scientists and making a convincing inclination to dive into its potential applications. Graphene, a solitary molecule thick material made out of carbon iotas, displays interesting electrical,mechanical, and warm properties. At the point when utilized as a
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