Thursday, October 18, 2018
Home Tags Nanoscale

Tag: nanoscale

intense lasers

Surprise Slow Electrons Are Produced When Intense Lasers Hit Clusters of...

Intense laser cluster interactions occur when small clusters of atoms, nanometres (billionths of a metre) in size, are struck with intense lasers. This happens,...
nanowires

Atomically Thin Nanowires Convert Heat to Electricity More Efficiently

Heat can be converted to electricity more efficiently using nanowires as thin as atoms, according to new University of Warwick research Atomically thin...
semiconductor

Study Reveals Secrets of ‘Fluid-Like’ Heat Flow in Solid Semiconductor at...

Researchers are applying the same “hydrodynamic transport model” used to study flow in fluids to explain heat transport in a solid semiconductor, with potential...
molecular wires

Building Molecular Wires, One Atom at a Time

Electronic devices are getting smaller and smaller. Early computers filled entire rooms. Today you can hold one in the palm of your hand. Now...
Nanophotonic Devices

NRL Improves Optical Efficiency in Nanophotonic Devices

Nanophotonic devices have direct applications for use in ultra-high resolution microscopes, solar energy harvesting, optical computing and targeted medical therapies. A team of physicists, headed...
nanotubes

Touchy Nanotubes Work Better When Clean

Carbon nanotubes bound for electronics need to be as clean as possible to maximize their utility in next-generation nanoscale devices, and scientists at Rice...
Heterostructures

Fast Flowing Heat in Layered Material Heterostructures

​Graphene Flagship scientists, led by researchers at ICFO - The Institute of Photonic Sciences in Barcelona, Spain, have detected graphene’s out-of-plane heat transfer in...
nanoscalevideo

Scientists Engineer Nanoscale Pillars to Act Like Memory Foam

A team of scientists from the U.S. Department of Energy’s Brookhaven National Laboratory and the University of Connecticut have developed a customizable nanomaterial that...
hyperlens

Hyperlens Crystal Capable of Viewing Living Cells in Unprecedented Detail

Just imagine: An optical lens so powerful that it lets you view features the size of a small virus on the surface of a...
metallic glass

Creating a New Kind of Metallic Glass

By shrinking samples of metallic glass to nanoscale size, Yale researchers have discovered they can create new materials with potentially new applications. The research, published...
catalysts

Researchers Compare ‘New’ and ‘Aged’ Catalytic Converter at the Nanoscale Level

Diesel vehicles today emit far fewer pollutants than older vehicles, thanks to a zeolite (hydrous silicate) catalytic converter that was invented around 10 years...
nanoparticlesvideo

Scientists Capture Colliding Organic Nanoparticles on Video for First Time

A Northwestern University research team is the first to capture on video organic nanoparticles colliding and fusing together. This unprecedented view of “chemistry in...
Ultrasound Bioprobe

New Imaging Technique Peers Inside Living Cells

To undergo high-resolution imaging, cells often must be sliced and diced, dehydrated, painted with toxic stains, or embedded in resin. For cells, the result...
liquid crystal devices

Photopolymerization-Triggered Molecular Motion for Flexible Liquid Crystal Display

Scientists at Tokyo Institute of Technology (Tokyo Tech) and McGill University have developed a new dye-free photoalignment method that enables 2D patterns of liquid...
tidal renewable energy, Antibiotic-Free Treatment, mental disorders, cancer, Synthetic Biology Research, Parkinson’s, Turbine Technology, Chronic Lung Disease, smart technology, Water monitoring device, aircraft wing design, energy consumed, Climate Change, Rett Syndrome, Perovskite-silicon solar cell, Low Back Pain, Heart Valves Implanted, heat pump, Floating device, honeybee, Workplace with Robots, power devices, Railway Sleepers, Minor cereals, paralysed, fibre optic, ultra-thin membranes, cold on a plane, diabetes genes, microcapsules, Electromagnetic radiation, Cold-loving bacteria, Artificial intelligence, Silicon Chips, Magnetic E-Skins, dog, climate change, Intestinal worms, antisocial behaviour, immune system, Bicarbonate, Neonatal seizures, insects, Alzheimer's disease, photovoltaic, Integrated Circuits, stress, human intelligence, quantum, OLED, smart glass, magnetic devices, mites, breathing monitor, spider silk, Cetaceans, Alzheimer, MNS robots, blindpad, photonics, remote medical diagnostic, sensors, Photovoltaic Panels, Alzheimer’s Disease, cancer, WINESENSE, combustion, multiple myeloma, sugar and mood, arctic waters, ultrawine, heliospheric, lunar exploration, Brain Diseases, fingertips, trees, earthquakes, gene therapies, climate change, nuclear waste, quantum, brain diseases, solar power, pulmonary disease, solidification, global warming, photovoltaic cells, drone, antiobiotic-resistant bacteria, Graphene, energy efficiency, magnetic data storage, immunology, Genetic plant, Antarctic, Alzheimer, Magnetic attraction, Huntington’s disease, bone repair, earthquakes, photonic crystals, brain, immunodeficiency, Internet of Things, spinal cord injuries, Dietary restriction, Bacterial DNA, NEUROMICS, huntington's

How the Magnetoelastic Effect Can Control the Magnetic Properties of Nanoelements

Information Communications and Technology (ICT) devices rely significantly on being able to harness the magnetic properties of materials, especially for computing memory and processing....
nanoscalevideo

A New Way to Mix Oil and Water

The reluctance of oil and water to mix together and stay that way is so well-known that it has become a cliché for describing...
Additive Manufacturing

Additive Manufacturing May Hold Key to Transforming Nanomaterials into Multifunctional Devices

Nanomaterials have been widely studied and proven to have unique properties that make them more suited to a variety of applications. However, there is...
RNA molecules, polymers, antimicrobial resistance, Aging White Blood Cells, microviscosity, Transplant Drug, Nanophotonics, photonics, Built-In Nanobulbs, cerebral cortex, cancer cells, nanowires, optoelectronic, solar energy, gold nanowires, Chikungunya virus, concrete, glaucoma, light-emitting diode, Proteomics, nanostructures, nickel catalyst, Ultrafast lasers, liver capsular macrophages, obesity, cancer, lignin polymer, liver capsular macrophages, Ultrafast lasers, monocyte cells, cancer treatments, antibody drug, gene mutations, quantum-entangled photons, gut microbes, skin aging, stroke, machine learning, Cloned tumors, cancer, Rare Skin Disease, terahertz lasers, silicon-nanostructure pixels, oral cancer, heart muscle cells, cancer, cancer stem cells, gastric cancer, microelectromechanical systems, data storage, silicon nanostructures, Drug delivery, cancer, muscle nuclei, Lithography, silicon nanostructures, Quantum matter, robust lattice structures, potassium ions, Photothermal therapy, Photonic devices, Optical Components, retina, allergy, immune cells, catalyst, Nanopositioning devices, mold templates, lung cancer, cytoskeletons, hepatitis b, cardiovascular disease, memory deficits, Photonics, pre-eclampsia treatment, hair loss, nanoparticles, mobile security, Fluid dynamics, MXene, Metal-assisted chemical etching, nanomedicine, Colorectal cancer, cancer therapy, liver inflammation, cancer treatment, Semiconductor lasers, zika virus, catalysts, stem cells, fetal immune system, genetic disease, liver cancer, cancer, liver cancer, RNA editing, obesity, Microcapsules, genetic disease, Piezoelectrics, cancer, magnesium alloy, Quantum materials, therapeutic antibodies, diabetes, 2D materials, lithium-ion batteries, obesity, lupus, surfactants, Sterilization, skin on chip, Magnetic Skyrmions, cyber-security, wound infections, human genetics, immune system, eczema, solar cells, Antimicrobials, joint disorder, genetics, cancer

Unlocking the Potential of Magnetic Skyrmions

Magnetic skyrmions offer the promise of next-generation memory and computing technologies, such as cache memory devices and cloud computing. Now A*STAR researchers have developed...
glass

Making Glass Invisible: A Nanoscience-Based Disappearing Act

If you have ever watched television in anything but total darkness, used a computer while sitting underneath overhead lighting or near a window, or...
laser

Laser-Focused: Chengyun Hua Turns the Heat up on Materials Research

In Chengyun Hua’s research, everything revolves around heat and how it moves. As a Russell Fellow at the Department of Energy's Oak Ridge National...