Researchers discover new family of quasiparticles in graphene-based materials. A group of researchers led by Sir Andre Geim and Dr. Alexey Berdyugin at The University…
Posts published in “2D Materials”
Auto Added by WPeMatico
Combining distinctive properties of two-dimensional materials inspires research to reveal a new frontrunner. Evolutionary search has helped scientists predict the lowest energy structure of a…
This microscopic, twisting spiral — which exhibits interesting, tunable superconductive properties — was “grown” by depositing sheets of two-dimensional material over a substrate curved slightly…
New deposition approach: synthesising and exfoliating (transferring onto a silicon substrate for example) 2D semiconducting MoS2. Credit: FLEET Possible pathway to fast-switching, ultra-low energy electronics…
[embedded content]David Indolese, a Physicist at the University of Basel, shortly explains the new SQUID – a minuscule instrument able to detect extremely faint magnetic…
Scanning tunneling microscope image of wide-band metallic graphene nanoribbon (GNR). Each cluster of protrusions corresponds to a singly-occupied electron orbital. The formation of a pentagonal…
Vibrations in a lattice: This is an illustration of quantized lattice vibrations in a material, where the word ‘quantized’ is used to mean that only…
Schematic of femtosecond laser fabrication of a monolayer TMDC lens. Inset: (i) AFM image of a monolayer TMDC single crystal, and (ii) Schematic of femtosecond…
Researchers at Drexel and KIST reported that a new MXene material, titanium carbonitride, can shield the electromagnetic interference better than materials currently being used in…
Credit: Tomsk Polytechnic University Developed a new 2D material to produce hydrogen, which is the basis of alternative energy; the material efficiently generates hydrogen molecules…
(Click image for full view.) This illustrates how an experimental memory technology stores data by shifting the relative position of three atomically thin layers of…
Credit: TU Delft Phase transitions play an important role in materials. However, in two-dimensional materials, the most famous of which is graphene, phase transitions can…
Credit: EPFL EPFL researchers have developed a high-precision technology that enables them to carve nanometric patterns into two-dimensional materials. With their pioneering nanotechnology, EPFL researchers…
(Click image for full view.) A bilayer of molybdenum trioxides supports highly collimated, directive, and diffractionless propagation of nano-light when the two layers are aligned…
A team of researchers based in Manchester, the Netherlands, Singapore, Spain, Switzerland and the USA has published a new review on a field of computer…
Sandwich with electronic spice: The illustration shows a crystalline monoatomic gold layer under graphene (anthracite). The electronic structure of the gold layer and the graphene…
Artist’s depiction of the IKAROS spaceprobe (the first spacecraft to successfully demonstrate solar sail technology in interplanetary space) in flight. Credit: Andrzej Mirecki A tiny…
Cun-Zheng Ning, a professor of electrical engineering in the Ira A. Fulton Schools of Engineering at Arizona State University, and collaborators from Tsinghua University in…
Monolayer Janus MoSSe, a compound of molybdenum, sulfur, and selenium developed at Rice University, is adept at detecting biomolecules via surface-enhanced Raman spectroscopy. Its nonmetallic…
Illustration of plasmon waves created by an ultrafast laser coupled to an atomic force microscopy tip. The plasmon waves are shown as concentric red and…