Nanotechnology deals with materials on a nanometer scale, which is a thousand times smaller than the micrometer scale. This is comparable in size to biomolecules and biomaterials, rather than to the plant and animal cells or viruses with which biotechnology works.
By Dr. Liji Thomas
21 May 2018
Nanotechnology is a branch of science dealing with the very small, smaller than the width of a human hair. But how can the very small be applied to the massive world of sports and can it really make the difference between winning and losing?
By Kerry Taylor-Smith
10 May 2018
Researchers of the Niels Bohr Institute of the University of Copenhagen’s Quantum Photonics Group have been performing groundbreaking research to analyze the quantum interactions between light and nanophotonic semiconductor materials.
This article demonstrates how researchers at the Penn State University cleanly downsized a standard glass microscope slide using the LatticeAx and eliminated more than a day of extra work, although the exclusively prepared slide was too tall to fit in their AFM.
This article describes how scientists at the University of Cambridge used the LatticeAx cleaving machine to support their research into a three-dimensional material with highly unique properties.
Cleaving is a fast and simple method used for preparing samples of semiconductor materials, including silicon. In contrast, sapphire does not cleave well, despite being a single crystal.
In-situ TEM and EELS reveal oxidation dynamics in bimetallic nanoparticles, showing shell formation and ion diffusion.
Cheap Tubes is fascinated to read about how their products are being utilized by researchers and pioneer adopters of new nanotechnology products.
Cheap Tubes are always amazed to learn more about the manufacture processes utilized to fabricate nanoscale products. They develop silver nanowires and spent a hefty amount of time and money in improving our process internally.
There are various methods in making CNTs and fullerenes. The first time scientists have observed fullerenes was after vaporizing graphite with a short-pulse, high-powered laser. Yet, this method is not advised because it’s not practical in creating large quantities.