Graphene hybrid made from metal organic frameworks (MOF) and graphenic acid make an excellent positive electrode for supercapacitors, which thus achieve an energy density similar…
Posts published in “Nanotechnology”
Auto Added by WPeMatico
Stretching of microfabricated diamonds pave ways for applications in next-generation microelectronics. Credit: Dang Chaoqun / City University of Hong Kong Diamond is the hardest material…
Scientists from Russia and Switzerland have probed into nanostructures covering the corneas of the eyes of small fruit flies. Investigating them the team learned how…
This 3D model of a polymer desalination membrane shows water flow — the silver channels, moving from top to bottom — avoiding dense spots in…
This 3D model of a polymer desalination membrane shows water flow — the silver channels, moving from top to bottom — avoiding dense spots in…
A research team led by Northwestern engineers and Argonne National Laboratory researchers have uncovered new findings into the role of ionic interaction within graphene and…
Figure 1. (a) Illustration of a TMC nanowire (b) Chemical vapor deposition. The ingredients are vaporized in a hydrogen/nitrogen atmosphere and allowed to deposit and…
An all-in-one solution for the design strategy of macroporous host with double-end binding sites. Credit: HKUST A team led by Cheong Ying Chan Professor of…
An illustration of the 2D boron nitride substrate with imperfections that host tiny nickel clusters. The catalyst aids the chemical reaction that removes hydrogen from…
This illustration of a nanoscale node created by the lab of Nick Vamivakas, professor of quantum optics and quantum physics, shows a closeup of one…
Researchers at Chalmers University of Technology, Sweden, have now shown that they can solve a small part of a real logistics problem with their small,…
: MIT researchers have found that an alloy material called InGaAs could be suitable for high-performance computer transistors. If operated at high-frequencies, InGaAs transistors could…
The complex dance of electrical signals inside a cell holds the key to many questions about diseases and disorders, but has been difficult to understand—so…
Light travels at a speed of about 300,000,000 meters per second as light particles, photons, or equivalently as electromagnetic field waves. Experiments led by Hrvoje…
Ultra-thin gold lamellae drastically amplify the incoming terahertz pulses (red) in the underlying graphene layer, enabling efficient frequency multiplication. Credit: HZDR/Werkstatt X On the electromagnetic…
Illustration of an electron-beam “sketching” a quantum dot at the LaAlO3/SrTiO3 interface. Credit: Muqing Yu Technique is 10,000 faster than previous methods, and can create…
Artistic representation of two antibodies triggering two chemical reactions. Credit: Illustration by Oscar Melendre Hoyos Researchers developed a strategy to synthesize functional molecules with specific…
Yuping Huang and his colleagues at Stevens Institute of Technology demonstrated a quantum circuit that can readily be integrated with other optical components, paving the…
Majorana Zero Energy Modes are found at the edge of 2D topological superconductors. Credit: Alex Tokarev, Ella Maru Studio Aalto University New research, published in…
Risk researchers are asking new questions about the health and safety implications and how to mitigate any potential health risks to users of 3D printers…