Nanoscale

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Nanometer (654)
Nanometer resolution (12)
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Nanoscale (737)
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Subnanometer (7)

Synopsis: Domenii: Nanotechnology: Nanotechnology generale: Nanometrology: Nanoscale:

To assist with this, the European union (EU)- funded NANOPOLY research fellows have developed a new software tool to model the polymer molecules on a nanoscale.

but none have been nearly as successful in detecting nanoscale viral particles in complex media##says Ã#nlã#referring to typical biological samples that may have a mix of viruses bacteria and proteins.##

Professor Benoit Ladoux co-principal investigator at the Mechanobiology Institute at the National University of Singapore and colleagues created a technique to measure the cell-generated nanoscale forces behind wound healing.

since a semiconductor and a metal couldn t coexist at the nanoscale at high density Kono says.

#Microbes could expand how doctors use ultrasound The addition of nanoscale organisms could potentially expand the range of medical conditions diagnosed with noninvasive ultrasound.

To create the nanoscale organisms, Mikhail Shapiro at the California Institute of technology and colleagues turned to nature for inspiration.

The researchers wanted to find another way of making gas-filled structures that could be nanoscale.

and was supported by the Smalley Institute for Nanoscale Science and Technology at Rice and the Air force Office of Scientific research Multidisciplinary University Research program i

Scientists like Hartgerink design custom nanoscale chains by carefully arranging the amino acids and their positive and negative charges.

The lab discovered boiling down a solution of graphene quantum dots (GQDS) and graphene oxide sheets (exfoliated from common graphite) yielded self-assembling nanoscale platelets that could then be treated with nitrogen and boron.

Left to their own devices carbon nanotubes form clumps that are perfectly wrong for turning into the kind of strong conductive fibers needed for projects ranging from nanoscale electronics to macro-scale power grids.

if you use the concept of the nanoscale to create structures and then use those nanostructures like LEGO to construct larger materials you can obtain nearly any set of properties you want.

what they call three-dimensional nanolattices that are formed by a repeating nanoscale pattern. After the patterning step they coated the polymer scaffold with a ceramic called alumina

and prodding materials on the nanoscale they squished stretched and otherwise tried to deform the samples to see how they held up.

#An assembly line 3x thinner than a human hair Original Studyposted by Peter Ruegg-ETH Zurich on September 2 2014 Researchers have realized a long-held dream of building a nanoscale ssembly line.?

This shows that through nanoscale engineering of materials we can really make a difference in how we make fuels

Stretching the material known as carbyne a hard-to-make one-dimensional chain of carbon atoms by just 3 percent can begin to change its properties in ways that engineers might find useful for mechanically activated nanoscale electronics and optics.

and director at UC Berkeley of the National Science Foundation Nanoscale Science and Engineering Center. he ability to magnify such a small trace of an explosive to create a detectable signal is a major development in plasmonsensor technology

The nanoscale plasmon sensor used in the lab experiments is much smaller than other explosive detectors on the market.

The Research center for Exotic Nanocarbons in Japan and the Center for Nanoscale Science at Penn State supported the research u

A new one-step process to etch nanoscale spikes into silicon lets the maximum amount of sunlight reach a solar cell,

Black silicon is simply silicon with a highly textured surface of nanoscale spikes or pores that are smaller than the wavelength of light.

because they go dead. estover s wafers consist of electrodes made from silicon that have been treated chemically so they have nanoscale pores on their inner surfaces

However they have been catching up rapidly. he big challenge for this approach is assembling the materialssays Pint. onstructing high-performance functional devices out of nanoscale building blocks with any level of control has proven to be quite challenging

The channel had earlier been patterned with precisely spaced nanoscale ridges. Infrared laser light shining on the pattern generates electrical fields that interact with the electrons in the channel to boost their energy.

but there are significant challenges in achieving true nanoscale dimension. ur work demonstrates that processes of polymer self-assembly can provide a way around this limitationsays John Rogers professor of materials science and engineering at University of Illinois at Urbana-Champaign.

The nanoscale building blocks display remarkable strength and resistance to failure despite being more than 85 percent air.

For example Greer s group has shown previously that at the nanoscale some metals are about 50 times stronger than usual

you really need to precisely control light in nanoscale, and that where this work can be a very important component,

and the Penn State Center for Nanoscale Science funded this study. Source: Penn Stat i

At the core of the device is a nanoscale structure#about a tenth of a millimeter wide

and by patterning it with these nanoscale antennas the conversion efficiency of the detector improves 10 times.#

Exposure to high radiation alone produces significant damage at the nanoscale, so scientists at Los alamos National Laboratory, New mexico, have been working on a mechanism that allows nanocrystalline materials to heal themselves after suffering radiation-induced damage.

these nanoscale motors twist the polymer chains in the gel, which as a result contracts by several centimeters.

and superhydrophobic (water hating) surfaces, on the nanoscale. Together these surfaces dramatically increased the efficiency of moisture condensation and

To create the effect researchers used lasers to etch nanoscale structures into the metal surface that repel the water.

Voluntary data-reporting schemes have been trialled in other countries with limited success. The ongoing voluntary programme of the US Environmental protection agency (EPA) has received so far submissions from 29 companies on more than 120 nanoscale materials;

#Diamond defects shrink MRI to the nanoscale Diamond-based quantum devices can now make nuclear magnetic resonance measurements on the molecular scale.

The second team2 was led by Daniel Rugar, manager of nanoscale studies at IBM s Almaden Research center in San jose, California.

NMR and MRI measurements on the nanoscale have been done using powerful nanomagnets in a technique called magnetic resonance force microscopy

#Novel solar photovoltaic cells achieve record efficiency using nanoscale structures Here's how to make a powerful solar cell from indium and phosphorus:

but less hard than polycrystalline diamonds made of nanoscale grains. But Natalia Dubrovinskaia, a crystallographer at the University of Bayreuth in Germany, notes that measuring the properties of superhard materials is problematic

Researchers working with nanoscale fluorescent particles called quantum dots have predicted long groundbreaking achievements, such as ultra-efficient light-emitting diodes (LEDS) and solar cells,

turning the glow into a precise probe of a material s nanoscale structure. The researchers expect the technology to reach the market early this year,

#Researchers Enlarge Brain Samples Making Them Easier to Image New technique enables nanoscale-resolution microscopy of large biological specimens.

the researchers say. nstead of acquiring a new microscope to take images with nanoscale resolution,

and other cellular activities are organized all at the nanoscale. Scientists have come up with some eally clever tricksto overcome this limitation,

you have to look at a large piece of tissue with nanoscale precision, he says. To achieve this, the MIT team focused its attention on the sample rather than the microscope.

MIT researchers led by Ed Boyden have invented a new way to visualize the nanoscale structure of the brain and other tissues.

but also to see where all the nanoscale components are. While Boyden team is focused on the brain,

New research suggests that a certain type of artificial diamond can be used as a nanoscale temperature probe with unmatched precision over time

Now a nanoscale light detector could make such deep-space missives easier to read. So says Richard Mirin at the US National Institute of Standards

From walls to nanoscale chips This fall Spielberg jumped to the other end of the 3-D printing spectrum, moving from walls to nanoscale fluidic chips.

He is now working in the lab of A. John Hart, the Mitsui Career development Associate professor of Mechanical engineering,

depositing or etching features onto nanoscale mechanical devices; spinning out nanofibers for use in water filters body armor and smart textiles;

The emitters like most nanoscale silicon devices were produced through photolithography a process in which patterns are transferred optically to layers of materials deposited on silicon wafers;

an ingenious process that makes large holes on one side that penetrate most of the way through the material providing little resistance to flow as well as nanoscale holes on the other surface in contact with the emulsion to be separated.

The thin layer with nanoscale pores allows for separation and the thick layer with large pores provides mechanical support.

The particles determine how energy moves at the nanoscale. The efficiency of devices such as photovoltaics and LEDS depends on how well excitons move within the material he adds.

This allows us to see new things Deotare says making it possible to demonstrate that the nanoscale structure of a material determines how quickly excitons get trapped as they move through it.

To decouple those two effects, the researchers coated the surface featuring spaced-out microscale posts with nanoscale particles.

under the same conditions, the droplets did not wet the surfaces of samples with either the microscale posts or the nanoscale texture,

Metal fatigue, for example which can result from an accumulation of nanoscale cracks over time s probably the most common failure modefor structural metals in general

Using this system, the researchers measured changes in the height of red blood cells, with nanoscale sensitivity,

Now physicists at MIT have developed an experimental technique to simulate friction at the nanoscale. Using their technique,

Vuletic says that at the nanoscale, friction may exact a greater force for instance, creating wear and tear on tiny motors much faster than occurs at larger scales. here a big effort to understand friction and control it,

Learn about the technique MIT physicists developed to simulate friction at the nanoscale. Video: Melanie Gonick/MIT (with computer simulations from Alexei Bylinkskii) Friction and force fieldsthe team simulated friction at the nanoscale by first engineering two surfaces to be placed in contact:

an optical lattice, and an ion crystal. The optical lattice was generated using two laser beams traveling in opposite directions,

from the nanoscale to the macroscale. he applications and related impact of their novel method propels a huge variety of research fields investigating effects relevant from raft tectonics down to biological systems

The study also suggests the broader potential for adapting nanoscale drug-delivery techniques developed for use in environmental remediation. hat we can apply some of the highly sophisticated,

which appeared this month in the Royal Society of Chemistry journal Nanoscale, the Rice team used sophisticated computer modeling to show it's possible to rip nanoribbons

The researchers have used the technique to determine that materials with a highly organized structure at the nanoscale are not more efficient at creating free electrons than poorly organized structures#a finding

and nanoscale lateral dimensions represent two critical capabilities for advanced applications. The thickness can be controlled through a combination of printing parameters including the size of the nozzle the stage speed ink composition and voltage bias.

E-jet printing refers to a technique called electrohydrodynamic jet described as a micro/nanomanufacturing process that uses an electric field to induce fluid jet printing through micro/nanoscale nozzles.

a new type of nanoscale surface that bacteria can't stick to holds promise for applications in the food processing, medical and even shipping industries.

The technology, developed collaboratively by researchers from Cornell University and Rensselaer Polytechnic institute, uses an electrochemical process called anodization to create nanoscale pores that change the electrical charge and surface energy of a metal surface,

The results are a positive indication for nanoscale targeting and localised manipulation of cancer cells with a specific receptor profile.

#New technique allows low-cost creation of 3-D nanostructures Researchers from North carolina State university have developed a new lithography technique that uses nanoscale spheres to create three-dimensional (3-D) structures

The NC State researchers took a different approach placing nanoscale polystyrene spheres on the surface of the photosensitive film.

The new technique could also be used to create nanoscale inkjet printers for printing electronics or biological cells or to create antennas or photonic components.

when one material grows on another said nanoscientist Elena Shevchenko of Argonne Center for Nanoscale Materials a DOE Office of Science user facility.

and the nanoscale which gave us a good view of how the nanoparticles form and transform.

A new study shows that this feature could facilitate easier nanoscale manufacturing of biosensors and plasmonic devices with intricate high-density surface structures.

The templates impose geometric constraints that force the films to organize into specific nanoscale patterns.

Lawrence Livermore National Laboratory (LLNL) and The swiss Federal Institute of technology (ETH) researchers have developed a cost-effective and more efficient way to manufacture nanoporous metals over many scales from nanoscale to macroscale

One of the biggest problems with this technique is that the metal layer cannot be peeled off uniformly (or at all) at the nanoscale.

This ILLO process can enable not only nanoscale processes for high density flexible devices but also the high temperature process that was previously difficult to achieve on plastic substrates.

and substrate a nanoscale process at a high temperature of over 1000c can be utilized for high performance flexible electronics.

The high-energy plasma can deposit highly transparent and conductive thin films create high quality semiconductors and pattern micro-or nanoscale devices thus making the display images brighter and clearer.

According to Anselmo's investigations for the same surface properties and shape nanoscale particles can perform even better than micron-size platelets.

#Engineers efficiently'mix'light at the nanoscale The race to make computer components smaller and faster

however, was that this frequency mixing was possible on the nanoscale with very high efficiency.

and push the device size into the nanoscale. c

#Patent awarded for genetics-based nanotechnology against mosquitoes insect pests Kansas State university researchers have developed a patented method of keeping mosquitoes and other insect pests at bay.

of 2 nm creating a powerful and versatile nanoscale imaging tool with exciting promise and potential for the materials and biological sciences.

Working at the Center for Nanoscale Materials (CNM)/ X-ray Science Division 26-ID beamline of the U s. Department of energy's Advanced Photon Source the researchers took advantage of some new technological innovations

Even in its present form the techniques demonstrated here can revolutionize nanoscale imaging in realms far beyond materials science including electronics and biology.

which DNA strands are threaded through nanoscale pores and read one letter at a time, has been touted for its ability to make DNA sequencing a faster and more routine procedure.

Nowadays, carbon nanotube mechanical resonators are in demand because of their extremely small size and their outstanding capability of sensing objects at the nanoscale.

and anode and leave behind detectable tracks of nanoscale damage. Crucially the high heat of vehicle environments can intensify these telltale degradation tracks and even cause complete battery failure.

These new and fundamental insights may help engineers develop superior battery chemistries or nanoscale architectures that block this degradation.

and suggests new ways to enhance durability including the use of nanoscale coatings that reinforce stable structures.

this nanoscale device has an optical system that can rapidly gauge the optimal dose of methotrexate a patient needs,

We are interested only really in a nanoscale interfacial region and looking at the fluorescence photon signal we can't tell the difference between the interface

the idea of a practical manufacturing process based on getting molecules to organize themselves in useful nanoscale shapes seemed...

"With support from the NSF and input from industry, our goal is to help nanoscale manufacturing processes leave the laboratory where they've been confined

In recent years carbon nanotubes have emerged as a promising material of electron field emitters owing to their nanoscale needle shape and extraordinary properties of chemical stability thermal conductivity and mechanical strength.

A very useful property is that once cast these nanoparticles can retain the framework of the DNA mold as an outer coating enabling additional surface modification with impressive nanoscale precision.

#Arrays of tiny conical tips that eject ionized materials could fabricate nanoscale devices cheaply Luis Fernando Velsquez-Garca's group at MIT's Microsystems Technology Laboratories (MTL) develops dense arrays

depositing or etching features onto nanoscale mechanical devices; spinning out nanofibers for use in water filters body armor and smart textiles;

The emitters like most nanoscale silicon devices were produced through photolithography a process in which patterns are transferred optically to layers of materials deposited on silicon wafers;

because they do not exactly conform to nanoscale. The sheets that Kim produced are just a few nanometers thick thin enough to earn the nano prefix.

#All directions are created not equal for nanoscale heat sources Thermal considerations are rapidly becoming one of the most serious design constraints in microelectronics, especially on submicron scale lengths.

a professor of materials science and engineering at Illinois."Our current understanding of nanoscale thermal transport isn't nuanced enough to quantitatively predict

Wilson and Cahill also studied the effect of interfaces on nanoscale thermal transport.""It's been well known for 75 years that the presence of a boundary adds a thermal boundary resistance to the heat-transfer problem,

"Wilson and Cahill also provided a theoretical description of their results that can be used by device engineers to better manage heat and temperature in nanoscale devices c

Nanopillars are engineered nanoscale surfaces with billions of organic posts that resemble blades of grass and like grass blades they are particularly effective at converting light to energy.

but at the nanoscale it resembles in Piot's words millions of lightning rods. When a strong electric field is applied it pulls streams of electrons off the surface of the cathode creating the electron beam.

Their results are published as front page news in the journal Nanoscale. Carbon nanotubes are more and more attractive for use in solar cells as a replacement for silicon.

To see as much detail as possible the team decided to use a set of electron detectors to collect electrons in a wide range of scattering angles an arrangement that gave them plenty of structural information to assemble a clear picture of the battery's interior down to the nanoscale level.

Miniature all-solid-state heterostructure nanowire Li-ion batteries as a tool for engineering and structural diagnostics of nanoscale electrochemical processes.

Nanoscale DOI: 0. 1039/c4nr01666a Aug 15 2014

#Research mimics brain cells to boost memory power RMIT University researchers have brought ultra-fast, nanoscale data storage within striking reach,

using technology that mimics the human brain. The researchers have built a novel nanostructure that offers a new platform for the development of highly stable and reliable nanoscale memory devices.

The pioneering work will feature on a forthcoming cover of materials science journal Advanced Functional Materials (11 november.

Mixing silicon with other materials improves the diversity of nanoscale electronic devices More information: Oda K. Nanai Y. Sato T. Kimura S. & Okuno T. Correlation between photoluminescence and structure in silicon nanowires fabricated by metal-assisted etching.

Dr Huang and his team published their findings in the latest issue of the journal Nanoscale.

#Engineers show light can play seesaw at the nanoscale University of Minnesota electrical engineering researchers have developed a unique nanoscale device that for the first time demonstrates mechanical transportation of light.

and will appear in the October issue of Nature Nanotechnology researchers developed a novel nanoscale device that can capture measure

"said Elena Rozhkova, chemist at Argonne's Center for Nanoscale Materials, a DOE Office of Science (Office of Basic energy Sciences) User Facility."

and time-resolved spectroscopy at the Center for Nanoscale Materials verified the movements of the electrons within the system,

Picene's sister molecule pentacene has been studied widely because of its high carrier mobilityts ability to quickly transmit electrons a critical property for nanoscale electronics.

if you use the concept of the nanoscale to create structures and then use those nanostructures like LEGO to construct larger materials,

what they call three-dimensional nanolattices that are formed by a repeating nanoscale pattern. After the patterning step,

and prodding materials on the nanoscale, they squished, stretched, and otherwise tried to deform the samples to see how they held up.

The team used a nanoscale structure which consists of a sequential array of a source electrode, a quantum well,

However on the nanoscale adding fluorine to graphene had been reported to vastly increase the friction experienced

which at the nanoscale can act like physical roughness in increasing friction. In fluorinated graphene the fluorine atoms do stick up out of the plane of carbon atoms

At the nanoscale Carpick said friction isn't just determined by the placement of atoms

We have found that there is pronounced nanoscale light-matter interaction between plasmons and atomically thin material that can be exploited for nanophotonic integrated circuits said Nick Vamivakas assistant professor of quantum optics and quantum physics at the University of Rochester and senior author of the paper.

and carrier concentrations with an accurate nanoscale picture of the semiconductor film's microstructure really gives a complete picture of how the device operates and

#Electron microscopes take first measurements of nanoscale chemistry in action (Phys. org) Scientists'underwater cameras got a boost this summer from the Electron microscopy Center at the U s. Department of energy's Argonne National Laboratory.

and materials scientists to explore never-before-measured stages of nanoscale chemical processes in materials said Argonne materials scientist Nestor Zaluzec one of the paper's authors.

Understanding how materials grow at the nanoscale level helps scientists tailor them for everything from batteries to solar cells.

and nanoscale for decades but it's usually done with the sample in a vacuum Zaluzec said.

a new class of nanoscale materials made in sheets only three atoms thick. The University of Washington researchers have demonstrated that two of these single-layer semiconductor materials can be connected in an atomically seamless fashion known as a heterojunction.

He says Here we preformed structures at nanoscale so they will form a known structure assembled at the meso scale from

which traps light at the nanoscale to enable real-time monitoring of individual molecules bending and flexing may aid in our understanding of how changes within a cell can lead to diseases such as cancer.

#Nanoscale biodegradable drug-delivery method could provide a year or more of steady doses About one in four older adults suffers from chronic pain.

The method uses biodegradable nanoscale thin films laden with drug molecules that are absorbed into the body in an incremental process.

#Nanoscale details of electrochemical reactions in electric vehicle battery materials Using a new method to track the electrochemical reactions in a common electric vehicle battery material under operating conditions,

"Our work was focused on developing a method to track structural and electrochemical changes at the nanoscale as the battery material was charging,

These methods lack the spatial resolution needed for chemical mapping or nanoscale imaging, and are likely to overlook possible small-scale effects and local differences within the sample,

the Brookhaven team used a combination of full-field, nanoscale-resolution transmission x-ray microscopy (TXM) and x-ray absorption near-edge spectroscopy (XANES) at the National Synchrotron Light source (NSLS),

The scientists used these methods to analyze samples made up of multiple nanoscale particles in a real battery electrode under operating conditions (in operando.

"In addition, this work demonstrates the unique capability of applying nanoscale imaging and spectroscopic techniques in understanding battery materials with a complex mechanism in real battery operational conditions."

Some of the bulk silicon platelets were more than one layer thick said Argonne scientist Nathan Guisinger of Argonne's Center for Nanoscale Materials.

Housed within the Center for Nanoscale Materials a DOE Office of Science User Facility the spectroscope allows researchers to use light to shift the position of one atom in a crystal lattice

who is also director of the Materials science Division at the Lawrence Berkeley National Laboratory and director of the National Science Foundation Nanoscale Science and Engineering Center at UC Berkeley."

Unstable and hungry for electrons The nanoscale plasmon sensor used in the lab experiments is much smaller than other explosive detectors on the market.

and thermal phenomena in a nanoscale system. The team believes that the relatively high aspect ratio (pillar height-to-thickness) of 4. 2 for the p-BNAS,

Researchers are focused now on using silicon at the nanoscale, or billionths of a meter, level as a replacement for graphite.

The problem with nanoscale silicon is that it degrades quickly and is hard to produce in large quantities.

"said Wolkow, the icore Chair in Nanoscale Information and Communications technology in the Faculty of science.""We are approaching some fundamental limits that will stop the 30-yearlong drive to make things faster, cheaper, better and smaller;

In recognition of the innovative approach the research was introduced on the cover of Nanoscale a high impacting peer-reviewed journal in the field of nano science.

The research outcome was introduced in Nanoscale a journal of Royal Society of Chemistry in the UK under the title of One-step Synthesis of Carbon Nanosheets Converted from a Polycylic Compound

"I'm interested in this concept of synthesizing new materials that are assembled from nanoscale building blocks, "Nam said."

biological ion channels played key roles for high efficient energy conversion in organisms due to its nanoscale effect and ion selectivity.

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