Computer chips used in next-generation smartphones and supercomputers can't get much faster without overheating.That's why engineers hope carbon nanotubes offer a possible cooling solution that could enable processing speeds to continue ...
Sodium-ion batteries offer an attractive alternative to Li-ion batteries not because they outperform Li-ion batteries, but mainly because of lower costs due to the the nearly unlimited supply of sodium. They are also an attractive ...
Tags: Li-ion batteries, ACS Nano, 2-D materials
The world of two-dimensional (2-D) materials has just gotten a little more crowded. If graphene, boron nitride, molybendum disulfide and silicene weren’t quite enough, we now may have something to join the mix in the 2-D universe that ...
Tags: Borophene, Nature Communications, Scotch Tape, B36
When molybdenum disulfide (MoS2) entered the conversation related to two-dimensional (2-D) alternatives to graphene in electronic applications, some thought that MoS2 had an edge as a transistor material. That thought was inspired by the ...
Tags: MoS2, Nature Communication, semiconductor, CVD
When it comes to graphene and photovoltaics, for the most part it's only been a story about replacing the indium tin oxide (ITO) used as the transparent electrodes of organic solar cells. But last year Spanish researchers in collaboration ...
Tags: Graphene, Perskovite, organic solar cells, Electrical, Electronics
"Cool it!" That's a prime directive for microprocessor chips and a promising new solution to meeting this imperative is in the offing. Researchers with the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley ...
Tags: Consumer Electronics, Electronics
Oxford Instruments is offering an upgrade option for its ALD equipment to apply a bias voltage to the substrate, adding further control of the energy at the wafer surface in order to tune the properties of the deposited film. While scaling ...
Graphene—the thinnest and strongest known material in the universe and a formidable conductor of electricity and heat – gets many of its amazing properties from the fact that it occupies only two dimensions: It has length and ...
Tags: 2-D Graphene, Graphene, Chemicals
While many believe that the key to producing the next generation of chips lies in developing better manufacturing techniques for nanomaterials rather than just creating new nanomaterials, there are others who simply can't resist the ...
Tags: mimics graphene, Construction, Chemicals
Rice University scientists have found they can control the bonds between atoms in a molecule. The molecule in question is carbon-60, also known as the buckminsterfullerene and the buckyball, discovered at Rice in 1985. The scientists led ...
Tags: Consumer Electronics, Electronics
The discovery of what is essentially a 3D version of graphene – the 2D sheets of carbon through which electrons race at many times the speed at which they move through silicon - promises exciting new things to come for the high-tech ...
Tags: Consumer Electronics, Electronics
Users from Northwestern University, working with the Center for Nanoscale Materials EMMD Group at Argonne, have demonstrated the first growth of graphene on a silver substrate. Unique wave-like electron scattering at the edges of the ...
When silicene, the two-dimensional version of silicon, was first introduced back in 2010, some called it a "wonder material." Silicene offered something akin to what graphene had been promising for half-a-decade but this time with an ...
Tags: Electrical, Electronics
Some people believe that developing new manufacturing techniques for na noscale devices, like new types of epitaxy in which crystals are grown on a substrate, may in fact be more critical to producing the next generations of chips than ...
Tags: two-dimensional hybrid material, graphene, boron nitride
Following its first series of seminars in India (in Bangalore) in 2012, UK-based equipment maker Oxford Instruments has completed its second series of seminars. Focussed on nanotechnology tools and their use in multiple fields, more than ...
Tags: OIPT, Oxford Instruments, Nanotech Seminars