Examples of new products enabled
by graphene technologies include fast, flexible and strong consumer electronics, such as electronic paper and bendable personal communication devices, as well as lighter and more energy - efficient aeroplanes.
Not exact matches
The research was led
by Dr Angelo Di Bernardo and Dr Jason Robinson, Fellows at St John's College, University of Cambridge, alongside collaborators Professor Andrea Ferrari, from the Cambridge
Graphene Centre; Professor Oded Millo, from the Hebrew University of Jerusalem, and Professor Jacob Linder, at the Norwegian University of Science and
Technology in Trondheim.
The Ulsan National Institute of Science and
Technology (UNIST) research team led
by Prof. Jong - Beom Baek have discovered an efficient method for the mass production of boron / nitrogen co-doped
graphene nanoplatelets (BCN -
graphene) via a simple solvothermal reaction of BBr3 / CCl4 / N2 in the presence of potassium.
Led
by the Chalmers University of
Technology, Sweden, the CONCEPTGRAPHENE (5) project set out to unlock the potential of depositing a thin layer of
graphene on to a silicon carbide (SiC) base — aiming to develop scalable electronics with potential applications in «spintronics» and ultra-accurate measuring devices.
The researchers — led
by physicist Francesco Bonaccorso, who is based at the
Graphene Labs of the Italian Institute of
Technology in Genova, and is a Royal Society Newton Fellow at the Cambridge
Graphene Centre — note the substantial progress made in material preparation at the laboratory level.
The
technology patented
by the UJI combines
graphene and organometallic compounds in a single material without altering the most interesting properties of
graphene, such as its electrical conductivity.
The
Graphene Flagship is a Future and Emerging
Technology Flagship
by the European Commission.
By building a deep understanding of the chemistry of single - layer
graphene and a few layer
graphene, I am confident that many new applications of chemically functionalized
graphenes could be possible, in electronics, photonics, optoelectronics, sensors, composites, and other areas,» notes Rodney Ruoff, corresponding author of this paper, CMCM director, and UNIST Distinguished Professor at the Ulsan National Institute of Science and
Technology (UNIST).
The WMG research team have already begun further work on this technological advance which will include further study and research as part of the
graphene spearhead two year project led
by Varta Micro-innovations, WMG at the University of Warwick is a partner along with Cambridge University, CIC, Lithops and IIT (Italian Institute of
Technology).
For example, whereas Markram and a few others controlled the HBP's structure and funding, the
graphene project is an open network only loosely coordinated
by its leaders at Sweden's Chalmers University of
Technology.
In a collaboration led
by CNIT — a consortium of Italian universities and national laboratories focused on communication
technologies — researchers from AMO GmbH, Ericsson, Nokia Bell Labs, and Imec have developed
graphene - based photodetectors and modulators capable of receiving and transmitting optical data faster than ever before.
A new
technology developed
by researchers in Italy and the United Kingdom allows for the creation of
graphene - based materials that can be interfaced with neurons without losing its electrical conductivity.
Recently developed
by a team of researchers at the Samsung Advanced Institute of
Technology (SAIT), this «
graphene ball» was utilized for both the anode protective layer and cathode materials in lithium - ion batteries and this ensured a 45 % increase in capacity and 5X faster charging speeds than standard lithium - ion batteries.
The EMotion will use a new battery
technology using
graphene, with battery packs produced
by Fisker Nanotech, a joint venture between Fisker Inc. and Nanotech Energy Inc..
According to Fisker, the new car will have a battery that utilizes
graphene to reduce charging time and offer longer range compared with all other batteries in the market, with the
technology developed
by several UCLA professors who have focused on energy storage research.
The 400 - mile range is said to be made possible
by the usage of
graphene in electric car batteries, with the
technology being referred to
by Fisker as the «next big step» in the industry.