Optomechanics simulates graphene lattices
The precise control of micro-mechanical oscillators is fundamental to many contemporary technologies, from sensing and timing to radiofrequency filters in smartphones. Over the past decade, quantum control of mechanical systems has been firmly establ.....»»
Graphene "camera" captures real-time electrical activity of beating heart
Bay Area scientists have captured the real-time electrical activity of a beating heart, using a sheet of graphene to record an optical image—almost like a video camera—of the faint electric fields generated by the rhythmic firing of the heart's m.....»»
Graphene can be used to detect COVID-19 quickly, accurately
Researchers at the University of Illinois Chicago have successfully used graphene—one of the strongest, thinnest known materials—to detect the SARS-CoV-2 virus in laboratory experiments. The researchers say the discovery could be a breakthrough i.....»»
Ultra-High-Density HDDs Made With Graphene Store Ten Times More Data
Graphene can be used for ultra-high density hard disk drives (HDD), with up to a tenfold jump compared to current technologies, researchers at the Cambridge Graphene Center have shown. Phys.Org reports: The study, published in Nature Communications,.....»»
Coating HAMR HDD platters with graphene could increase storage capacity by up to 10 times
A team of researchers from the University of Cambridge Graphene Centre discovered that through the use of graphene, HDD storage capacity can be multiplied by ten. A team at the University of Exeter and other teams located in India, Switzerland, Singa.....»»
Smell-O-Vision: This nose-zapping wearable simulates smell using electricity
Digital reproduction of sights and sounds is pretty common, but thanks to a new invention, it might soon be possible to digitally simulate smells......»»
Researchers continue to refine graphene production using HPC
Graphene may be among the most exciting scientific discoveries of the last century. While it is strikingly familiar to us—graphene is considered an allotrope of carbon, meaning that it essentially the same substance as graphite but in a different a.....»»
Best of both worlds: High entropy meets low dimensions, opens up infinite possibilities
The discovery of graphene, a 2D layered form of carbon, once caused a paradigm shift in science and technology like no other. As this wonder material drew attention from material scientists around the world, it spurred research on other materials tha.....»»
Research team discovers that it takes some heat to form ice on graphene
In a paper published in Nature Communications, the research team details the complex physical processes at work to understand the chemistry of ice formation. The molecular-level perspective of this process may help in predicting the formation and mel.....»»
Superflimsy graphene turned ultrastiff by optical forging
Graphene is an ultrathin material characterized by its ultrasmall bending modulus, superflimsiness. Now the researchers at the Nanoscience Center of the University of Jyväskylä have demonstrated how an experimental technique called optical forging.....»»
Folded 2D materials have properties useful for quantum communications
Graphene is a material made of carbon atoms one layer thick, arranged in a honeycomb structure. It has been used to make materials stronger, create ultra-high frequency components for communications, boost battery performance and even used to make CO.....»»
Innovation pioneers score world first for sustainable construction with graphene concrete
Manchester innovation pioneers score world first for sustainable construction with graphene concrete......»»
New method for observes graphene growing using standard electron microscope
Researchers from the University of Surrey have revealed a new method that enables common laboratory scanning electron microscopes to see graphene growing over a microchip surface in real time......»»
Not graphene: Researchers discover new type of atomically thin carbon material
Carbon exists in various forms. In addition to diamond and graphite, there are recently discovered forms with astonishing properties. For example graphene, with a thickness of just one atomic layer, is the thinnest known material, and its unusual pro.....»»
"Bite" defects revealed in bottom-up graphene nanoribbons
Graphene nanoribbons (GNRs), narrow strips of single-layer graphene, have interesting physical, electrical, thermal, and optical properties because of the interplay between their crystal and electronic structures. These novel characteristics have pus.....»»
Aluminum-Ion Battery Claimed to Charge 60 Times Faster, Hold 3X the Energy
Graphene aluminum-ion battery cells from Brisbane-based Graphene Manufacturing Group "are claimed to charge up to 60 times faster than the best lithium-ion cells and hold three time the energy of the best aluminum-based cells," writes a transportatio.....»»
New atomically precise graphene nanoribbon heterojunction sensor developed
An international research team led by the University of Cologne has succeeded for the first time in connecting several atomically precise nanoribbons made of graphene, a modification of carbon, to form complex structures. The scientists have synthesi.....»»
Graphene key for novel hardware security
As more private data is stored and shared digitally, researchers are exploring new ways to protect data against attacks from bad actors. Current silicon technology exploits microscopic differences between computing components to create secure keys, b.....»»
Self-generating yarn made from graphene oxide strands
A team of researchers from Zhejiang University, Xi'an Jiaotong University and Monash University has developed a way to bind multiple strands of graphene oxide into a thick cable. In their paper published in the journal Science, the group describes th.....»»
Team uses laser-induced graphene process to create micron-scale patterns in photoresist
A Rice University laboratory has adapted its laser-induced graphene technique to make high-resolution, micron-scale patterns of the conductive material for consumer electronics and other applications......»»
Researchers develop new graphite-based sensor technology for wearable medical devices
Researchers at AMBER, the SFI Centre for Advanced Materials and BioEngineering Research, and from Trinity's School of Physics, have developed next-generation, graphene-based sensing technology using their innovative G-Putty material......»»