Led by Prof Coleman, in collaboration with the groups of Prof Georg Duesberg (AMBER) and Prof. Laurens Siebbeles (TU Delft, Netherlands), the team used standard printing techniques to combine
graphene nanosheets as the electrodes with two other nanomaterials, tungsten diselenide and boron nitride as the channel and separator (two important parts of a transistor) to form an all - printed, all - nanosheet, working transistor.
Resume: Control and improvement of interfacial thermal conductance between
graphene nanosheets plays a crucial role with respect to the manufacturing of highly thermally conductive nanomaterials and devices.
Control and improvement of interfacial thermal conductance between
graphene nanosheets plays a crucial role with respect to the manufacturing of highly thermally conductive nanomaterials and devices.
Gurpreet Singh, assistant professor of mechanical and nuclear engineering, and his student researchers are the first to demonstrate that a composite paper — made of interleaved molybdenum disulfide and
graphene nanosheets — can be both an active material to efficiently store sodium atoms and a flexible current collector.
Illustration of the asymmetric supercapacitor, consisting of vertically aligned
graphene nanosheets coated with iron nitride and titanium nitride as the anode and cathode, respectively.
Not exact matches
Research from Alberta Canada shows
graphene - like carbon
nanosheets made from hemp can perform well as a super capacitor battery.
«The
graphene forms a sandwich structure with the carbon nitride
nanosheets and results in further redistribution of electrons.
The solution —
graphene - based Janus amphiphilic
nanosheets — is effective at a concentration of just 0.01 percent, meeting or exceeding the performance of both conventional and other nanotechnology - based fluids, said Zhifeng Ren, MD Anderson Chair professor of physics.
«Silicon
nanosheets are particularly interesting because today's information technology builds on silicon and, unlike with
graphene, the basic material does not need to be exchanged,» explains Tobias Helbich from the WACKER Chair for Macromolecular Chemistry at TUM.
Silicon
nanosheets are thin, two - dimensional layers with exceptional optoelectronic properties very similar to those of
graphene.
«Polymer - coated silicon
nanosheets: An alternative to
graphene: Nanocomposite material with exceptional optoelectronic properties.»
Like
graphene, boron nitride
nanosheets are two dimensional, but instead of conducting electricity like
graphene they resist and insulate against it.
Despite having electronic properties superior to other 2D materials such as
graphene (2D carbon) and silicene (2D silicon), phosphorene's potential for application in high - performance devices has been limited by how difficult it is to reliably produce commercially viable quantities of it in large, thin, high - quality
nanosheet form.
• Laser - printed anti-bacterial
graphene oxide helps regenerate bone (Dec 2017) • Magnesium phosphate
nanosheets help repair bone (Jun 2016) • Pore - forming hydrogels help bone tissue to grow (Sep 2015)
Molecular dynamics simulations show that a preferential binding of PSS one side of the
graphene oxide
nanosheets gives rise to the curvature of the
nanosheet during scroll formation, in part from the hydrophilic nature of the PSS layer.
Graphene nanoscrolls —
nanosheets uniformly wound around themselves — have been proposed for use as a man - made analogue of this capillary structure.
Noncovalent interactions between π - orbitals on the polymer and the
graphene oxide bind the surfactant to its target and reduce aggregation of
graphene oxide
nanosheets, allowing full reduction of their surface bonds.
Atomic resolution, scanning transmission electron microscope image of part of a
nanosheet of shear exfoliated
graphene.