Scientists have found a simple method for producing atomically thin layers of oxidized borophene, a promising 2D boron-based nanomaterial that could serve in a variety of fields.... SCIENCE DAILY · 4 weeks
A simple method for the synthesis of atomically flat boron sheets  nanowerk · 4 weeks
Scientists find a simple method for producing atomically thin layers of oxidized borophene, a promising 2D boron-based nanomaterial that could serve in a variety of fields. more
Can't get thinner than this: synthesis of atomically flat boron sheets  PHYS.ORG · 3 weeks
Since its rediscovery and characterization in 2004, graphene has been the focus of countless research efforts across multiple fields. It is a versatile material consisting of... more
Rational synthesis of an atomically precise carboncone under mild conditions  Science Magazine · 4 weeks
Carboncones, a special family of all-carbon allotropes, are predicted to have unique properties that distinguish them from fullerenes, carbon nanotubes, and graphenes. Owing to the absence of methods... more
Inexpensive flat-panel antennas will be a “game-changer”  SPACE NEWS · 1 week
For consumer adoption of broadband from satellites in low or medium Earth orbits, inexpensive flat-panel antennas are “critical,” said Pradman Kaul, Hughes... more
Creating new opportunities from nanoscale materials  PHYS.ORG · 2 weeks
A hundred years ago, "2d" meant a two-penny, or 1-inch, nail. Today, "2-D" encompasses a broad range of atomically thin flat materials, many with exotic properties not found in the bulk equivalents of the same materials,... more
Time-saving simulation of peeling graphene sheets  nanowerk · 1 week
Researchers have developed a time-saving potential model to simulate the adhesive characteristics during the peeling process of armchair-type graphene sheets from frictionless graphite substrate surfaces. more
Melting glaciers, as well as ice sheets, raising Earth's seas  PHYS.ORG · 3 weeks
As the planet's polar ice sheets destabilise amid rising temperatures, a landmark UN assessment of Earth's retreating frozen spaces is also set to spell out how melting mountain... more
Atomically precise, custom-design origami graphene nanostructures  Science Magazine · 2 weeks
The construction of atomically precise carbon nanostructures holds promise for developing materials for scientific study and nanotechnology applications. Here, we show that graphene origami is an efficient way to convert graphene into atomically precise, complex nanostructures.... more
Synthesis of UV absorbers from cashew nut shell liquid  SCIENCE DAILY · 3 weeks
Researchers succeeded in using cashew nut shell liquid (CNSL) as a substitute for petroleum in organic synthesis. Their aim was the development of a sustainable synthesis of soluble organic UV... more
Atomically thin minerals show promise as proton conducting membranes for green technologies  PHYS.ORG · 2 weeks
Researchers at The University of Manchester discovered that atomically- thin micas—the name given to a type of common mineral found in soil—are excellent proton... more
Atomically thin minerals show promise as proton conducting membranes for green technologies  nanowerk · 2 weeks
Researchers discovered that atomically thin micas - the name given to a type of common mineral found in soil - are excellent proton conductors.... more
Tailored 'cell sheets' to improve post-operative wound closing and healing  SCIENCE DAILY · 12 hours
Scientists have designed a new method for post-operative wound closing and healing that is both fast and effective. This strategy revolves around engineered 'cell sheets' -- or layers... more
Time-saving simulation of peeling graphene sheets  PHYS.ORG · 1 week
Control of atomic-scale friction and adhesion is critical for effective manipulation of the motion of nano- or micro-meter scale objects at interfaces. For example, in nanotechnology controlling adhesion during the peeling process of graphene sheets plays... more
Synthesis of UV absorbers from cashew nut shell liquid  PHYS.ORG · 3 weeks
Researchers at Johannes Gutenberg University Mainz (JGU) in Germany, in collaboration with colleagues from the University of the Witwatersrand in Johannesburg in South Africa and the University of Dar-es-Salaam in... more
Eco-friendly method for the synthesis of iron oxide nanoparticles  nanowerk · 3 days
Researchers report a new method for the synthesis of magnetic nanoparticles. more
Researchers produce first-ever videos of chemical synthesis at atomic resolution  nanowerk · 4 weeks
For the first time, researchers have managed to view previously inaccessible details of certain chemical processes. They have shown there are significant discrete stages to these processes which... more
Atomically thin straintronic devices  nanowerk · 4 weeks
By studying flexible and transparent photodetectors based on single-layer MoS2 under the application of biaxial strain, researchers have developed atomically thin photodetectors whose characteristics can be controlled by means of an externally applied strain. This strain can be reversibly applied... more
Quantum engineering atomically smooth single-crystalline silver films  PHYS.ORG · 3 weeks
Ultra-low-loss metal films with high-quality single crystals are in demand as the perfect surface for nanophotonics and quantum information processing applications. Silver is by far the most preferred material due to low-loss at optical... more
Regulating the activity of RNA molecules  SCIENCE DAILY · 3 weeks
Messenger RNA molecules contain genetic information and thus control the synthesis of proteins in living cells. Biochemists have now discovered a way to regulate this process which is central to gene expression: Certain actinobacteria contain a... more
A novel recipe for efficiently removing intrinsic defects from hard crystals  nanowerk · 2 weeks
Researchers obtained an ordered phase of boron by adding hydrogen (hydrogenation) at high temperatures and through dehydrogenation by low-temperature annealing. more
Videos of chemical synthesis at atomic resolution achieved  SCIENCE DAILY · 4 weeks
For the first time, researchers have managed to view previously inaccessible details of certain chemical processes. They have shown there are significant discrete stages to these processes which build on our knowledge... more
3D-printed automation for optimized PET radiochemistry  Science Magazine · 5 days
Reproducible batch synthesis of radioligands for imaging by positron emission tomography (PET) in a manner that maximizes ligand yield, purity, and molar activity, and minimizes cost and exposure to radiation, remains a challenge, as new and... more
Researchers produce first-ever videos of chemical synthesis at atomic resolution  PHYS.ORG · 4 weeks
For the first time, researchers have managed to view previously inaccessible details of certain chemical processes. They have shown there are significant discrete stages to these processes that... more
Eco-friendly method for the synthesis of iron oxide nanoparticles  PHYS.ORG · 3 days
A team of scientists from Ural Federal University (Yekaterinburg), Bangladesh University of Engineering and Technology and other collaborator have published an article about a new method for the synthesis of... more
Sticks and stones may break your bones, but this reaction edits skeletons  PHYS.ORG · 5 days
Since Friedrich Wohler synthesized urea (by accident) back in 1828, chemical synthesis—and organic synthesis for that—has been a driving force in pharmaceutical innovation. Improving... more
Blue light for RNA control  PHYS.ORG · 3 weeks
Messenger RNA molecules contain genetic information and thus control the synthesis of proteins in living cells. Biochemists at the University of Bayreuth and the University of Bonn have now discovered a way to regulate this process which is... more
Crossover from 2-D metal to 3-D Dirac semimetal in metallic PtTe2 films with local Rashba effect  PHYS.ORG · 4 weeks
Transition metal dichalcogenides (TMDCs) formed by group 10 metals (e.g. PtSe2, PtTe2) have emerged as important... more
New microscopes unravel the mysteries of brain organization  SCIENCE DAILY · 3 days
The secret of capturing exquisite brain images with a new generation of custom-built microscopes has been revealed. The new microscopes, known as mesoSPIMs, can image the minute detail of brain tissue down... more
Synthesis and observation of non-Abelian gauge fields in real space  Science Magazine · 2 weeks
Particles placed inside an Abelian (commutative) gauge field can acquire different phases when traveling along the same path in opposite directions, as is evident from the Aharonov-Bohm effect.... more
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