Synopsis: Domenii: Nanotechnology: Nanotechnology generale: Nanometrology:

At a diameter in the range of ten to one hundred nanometres, a single such particle is invisible to the naked eye.

Professor of Physical chemistry at the University of Zurich, succeeded in the controlled spatial manipulation of matter on the nanometer scale.

so we designed nanocapsules measuring less than 500 nanometers, and made a gum-like model that has a liquid center.

Working with brick-like blocks of gold nanoantennas, the Berkeley researchers fashioned a"skin cloak"barely 80 nanometers in thickness,

however, allow us to manipulate the phase of a propagating wave directly through the use of subwavelength-sized elements that locally tailor the electromagnetic response at the nanoscale,

With more photons, at a wavelength of 33 nanometers, the researchers were able to make an image with a resolution of 26 nanometers--almost the theoretical limit."

When taking snapshots every second, the researchers reached a resolution below 80 nanometers. The prospect of high-resolution and real-time imaging using such a relatively small setup could lead to all kinds of applications,

a nanoscale integrated optical memory that could open up the route towards ultra-fast data processing and storage.

This changeability between crystalline (regular) and amorphous (irregular) states allowed the team to store many bits in a single integrated nanoscale optical phase-change cell l

The rapid development in nano-optics and on-chip photonic systems has increased the demand for ultrathin flat lenses with three-dimensional subwavelength focusing capability the ability to see details of an object smaller than 200 nanometres.

nanometer particles with the ability to absorb light and re-emit it with well-defined colors.

The new material could also lead to optical sensors that are highly sensitive to the electrical field in the environment on the nanometer scale e

and record these nanoscale interactions in real time. As they report Sept. 28 in Nature Biotechnology("Subangstrom single-molecule measurements of motor proteins using a nanopore),

#Nanoscale photodetector shows promise to improve the capacity of photonic circuits Photonic circuits, which use light to transmit signals,

It's difficult to localize visible light below its diffraction limit, about 200-300 nanometers, and as components in electronic semiconductors have shrunk to the nanometer scale,

the photonic circuit size limitation has given electronic circuits a significant advantage, despite the speed discrepancy. Now researchers at the University of Rochester have demonstrated a key achievement in shrinking photonic devices below the diffraction limit--a necessary step on the road to making photonic circuits competitive with today's technology.

The scientists developed a nanoscale photodetector that uses the common material molybdenum disulfide to detect optical plasmons--travelling oscillations of electrons below the diffraction limit

#Developing a nanoscale'clutch'A model microscopic system to demonstrate the transmission of torque in the presence of thermal fluctuations-necessary for the creation of a tiny'clutch'operating at the nanoscale-has been assembled at the University of Bristol as part of an international collaboration (Nature

Physics,"Transmission of torque at the nanoscale"."When driving a car, the clutch mechanically carries the torque produced by the engine to the chassis of the vehicle-a coupling that has long been tested

which would operate at the nanoscale is much more challenging because, at microscopic length scales,

physicists at the University of Düsseldorf have developed model computer simulations to further investigate torque coupling at the nanoscale.

Ion channels are typically about 1 nanometer wide; by maintaining the right balance of ions, they keep cells healthy and stable.

Each graphene pore is less than 2 nanometers wide, making them among the smallest pores through

The researchers used the process to generate nanometer-sized pores in various sheets of graphene,

Based on the model, they found that the diameter of many of the pores was below 1 nanometer,

Knowing this, researchers may one day be able to tailor pores at the nanoscale to create ion-specific membranes for applications such as environmental sensing and trace metal mining. t kind of a new frontier in membrane technologies,

and understand the intrinsic spin of electrons to advance nanoscale electronics is hampered by how hard it is to measure tiny, fast magnetic devices.

if perfected, could lead to a novel tabletop magnetic measurement technique and new, nanoscale electronic devices based on electrical spin, rather than charge.

is detailed in the journal Nature Communications("Toward a table-top microscope for nanoscale magnetic imaging using picosecond thermal gradients").

Wee talking about nanometers and picoseconds. Scientists have been unable to directly image magnetic motion in nanoscale spintronic devices without hugely expensive X-ray sources at national facilities.

In their own labs, the best they could do was infer magnetic properties from electrical measurements.

such as fabricating gold antennae to excite thermal excitations confined to nanoscale dimensions o

#Simple detection of magnetic skyrmions At present, tiny magnetic whirls so called skyrmions are discussed as promising candidates for bits in future robust and compact data storage devices.

Proteins are generally only a few nanometres in size. Several thousand billion protein molecules must perfectly fit together

An international team of researchers have designed and synthetized a nanometer scale DNA"machine "whose customized modifications enable it to recognize a specific target antibody.

and synthesized a nanometer scale DNA"machine "whose customized modifications enable it to recognize a specific target antibody.

The sphere is less than 200 nanometers in diameter making it 500 times thinner than a human hair.

which was only a few nanometres (a millionth of a millimetre) thin to utilise quantum-mechanical effects for the flow through the storage cells."

and this method provides a straightforward way to make semiconducting nanoscale circuits from graphene, a form of carbon only one atom thick.

UW researchers went to Argonne staff scientists Brian Kiraly and Nathan Guisinger at the Center for Nanoscale Materials,

"We have some very unique capabilities here at the Center for Nanoscale Materials, "said Guisinger."

#Researchers build nanoscale autonomous walking machine from DNA Researchers at The University of Texas at Austin have developed a nanoscale machine made of DNA that can randomly walk in any direction across bumpy surfaces.

"This is an important step forward in developing nanoscale nucleic acid machines that can autonomously act under a variety of conditions,

There also may be implications for future delivery of nanoscale therapeutics. Although it may be a long march from diagnosing cancer to curing it,

The study demonstrated that as the nanoscale machine walked, it did not go over the same area twice e

The electron micrographs show that the replisome is a 20-nanometer sized nanomachine. click on image to enlarge) To test these assumptions,

"SERS substrates are used to analyze the composition of a mixture at the nanoscale for environmental analysis, pharmaceuticals, material sciences, art and archeological research, forensic science, drug detection, food quality analysis,

"This work demonstrates the unique capability of micro-to-nanoscale topographies of the crumpled graphene-Au nanoparticles--higher density,

The fibers might be tens of nanometers in diameter and a hundred nanometers long, far smaller than a red blood cell.

Voltage selector The team used gold particles about 20 nanometres across. They laid a few tens of these in a rough circle, each about 1 nanometre from its nearest neighbours,

and surrounded them with eight electrodes. The computations happened when they applied just the right voltages to the cluster at six specific locations.

using gold particles about 20 nanometres across. They laid a few tens of these grains in a rough heap, with each one about 1 nanometre from its nearest neighbours,

and placed eight electrodes around them. When they applied just the right voltages to the cluster at six specific locations,

the DWLS"prints"using an ultraviolet laser on a super-thin film--only about 50 nanometers thick.

which at 800 nanometers, is thick enough. The spectrum created by this chip is not constant,

and Applied sciences (SEAS) say they have made it easier to manipulate light at the nanoscale. They have developed the first on-chip metamaterial with a refractive index of zero,

bend, twist and reduce diameter of a beam from the macroscale to the nanoscale, said Mazur. his on-chip metamaterial opens the door to exploring the physics of zero index and its applications in integrated optics.

In tests, the researchers found that their device could detect GSM and MIB concentrations as low as 10 nanograms per liter of water,

and this method provides a straightforward way to make semiconducting nanoscale circuits from graphene, a form of carbon only one atom thick.

UW researchers went to Argonne staff scientists Brian Kiraly and Nathan Guisinger at the Center for Nanoscale Materials,

"We have some very unique capabilities here at the Center for Nanoscale Materials, "said Guisinger."

but the use of atoms, Tour said. he particles doing this chemistry are as small as you can possibly Get even particles on the nanoscale work only at the surface,

The technique provides a new approach to modulation that could be useful in all kinds of silicon-based nanoscale devices,

The strategy was demonstrated by a small group of researchers at the Center for Nanoscale Materials (CNM

For the experiment, the scientists shot at a 300-nanometer-thick foil of curium with accelerated calcium nuclei.

is composed of an extremely thin layer of gold nanoantennae that form a tiled coat only 80 nanometres thick.

Each magnet is just 63 nanometres long (1 nm=10-6 millimetres) and shaped sort of like a grain of rice.

they have to be incredibly close together-generally within 20 to 40 nanometres of each other -and this makes controlling them incredibly difficult.

or foam, with pores ranging from 2 to 50 nanometers in diameter, providing enormous surface area and room for the battery electrolyte to diffuse.

which are typically several nanometers in length. A nanometer is one one-thousandth of a micrometer.

The new device, called a biophotonic laser-assisted surgery tool, or BLAST, is a silicon chip with an array of micrometer-wide holes,

The advantages of this molecule, approximately three nanometres in size, are that it rotates very little

Li was able to accurately visualize and measure, at the nanoscale, the chemical changes iron fluoride undergoes to store

"By examining iron fluoride transformation in batteries at the nanoscale, Jin and Li's new X-ray imaging method pinpoints each individual reaction to understand why capacity decay may be occurring."

when a two-dimensional array of nanometer-sized gold metamaterial resonators is illuminated by a tunable near-infrared femtosecond laser,

Nanoscopic lasers--first demonstrated in 2009--are only found in research labs today. They are,

We believe this work represents a conceptual and practical engineering advance for on-demand, reversible control of light from nanoscopic sources."

Some technical backgroundplasmon lasers are promising nanoscale coherent sources of optical fields because they support ultra-small sizes and show ultra-fast dynamics.

Odom's research team has found a way to integrate liquid gain materials with gold nanoparticle arrays to achieve nanoscale plasmon lasing that can be tuned dynamical, reversibly and in real time.

These nanoscale lasers can be mass-produced with emission wavelengths over the entire gain bandwidth of the dye.

Thus, the same fixed nanocavity structure (the same gold nanoparticle array) can exhibit lasing wavelengths that can be tuned over 50 nanometers, from 860 to 910 nanometers,

"A single DNA molecule, once stretched, is about two nanometers in width, "said Aydogan Ozcan, HHMI Chancellor Professor, UCLA."For perspective,

Three atom-thick layers of molybdenum disulfide were cooked up in the lab of Jiwoong Park, associate professor of chemistry and chemical biology and member of the Kavli Institute at Cornell for Nanoscale Science.

Devices were fabricated at the Cornell Nanoscale Science and Technology Facility, also supported by NSF F

so when researchers pull on one end of the array the CNTS form a continuous ribbon that is only nanometers thick.

which are about 50 nanometers in diameter, naturally have oxidized an layer of alumina (Al2o3).""We needed to get rid of it,

which reacts with titanium oxysulfate to form a solid shell of titanium hydroxide with a thickness of 3 to 4 nanometers.

The device is made of thousands of quantum dots, each measuring about six nanometers.""We made a tiny device,

finding the quantum dots--they're just about 10 nanometers across--is no small feat. Now, researchers working at the National Institute of Standards and Technology (NIST) in the United states,

the researchers can determine the dots'locations with an uncertainty of less than 30 nanometers. Their coordinates in hand, scientists can then tell the computer-controlled electron beam lithography tool to place any structure the application calls for in its proper relation to the quantum dots,

This work was performed in part at NIST's Center for Nanoscale Science and Technology (CNST), a national user facility available to researchers from industry, academia and government t

The coating thickness can also be adjustable to hundreds of thousands of nanometers through the control of withdrawal rate.

and back of the sample at the same time and achieved unprecedented optical resolution (of approximately 10 nanometers) of a cell.

"So using this method we can look at interactions between four biological components inside a cell in three-dimension and at very high resolution of about 10 nanometers,

such as the ph, in live cells at the nanometer scale. The research was supported partly by UC Berkeley's College of Chemistry and a Laboratory Directed Research and development (LDRD) grant by Berkeley Lab b

That's really small--less than one millionth of a meter--but these nanoscopic valleys have macroscopic impact.

and demonstrate the nanoscale mechanics behind the phenomenon of staying dry underwater. In their experiments, the researchers used a variety of materials with

Samples with the nanoscale roughness remained dry for up to four months the duration of the experiment.

The researchers focused on the nanoscopic structure of surfaces, which, at the nanoscale, are somewhat akin to the texture of a carpet,

with tiny spike-like elevations separated by valley-shaped pores in between. When submerged, water tends to cling to the top of the spikes,

By adjusting the position just by a small amount--in our case by about 100 nanometers--we can turn on waves that propagate in the opposite direction, namely toward the barrier and beyond."

which showed that adding a nanometers-thick layer of titanium dioxide (Tio2)--a material found in white paint

and colleagues uses such a 62.5-nanometer-thick Tio2 layer to effectively prevent corrosion and improve the stability of a gallium arsenide-based photoelectrode.

active catalyst by adding a 2-nanometer-thick layer of nickel to the surface of the Tio2.

and then created nanoscale textures on the pillars by wet etching. They then infused the nanotextures with a layer of lubricant that completely coated the nanostructures,

The surfaces resist the infiltration of liquid into the nanoscale pockets. The extent to which nanometer-size textured,

superhydrophobic coatings can withstand elevated pressures is determined largely by the geometry of the texturing. This work shows that by careful tuning of the nanoscale geometry

substantial gains in the durability and applicability of these structures for solar panels, highly robust, self-healing coatings,

Nanometer-size textures should facilitate more resilient coatings owing to geometry and confinement effects at the nanoscale.

This study uses in situ x-ray diffraction to investigate the extent to which the superhydrophobic state in arrays of 20 nanometer-wide silicon textures with cylindrical, conical,

"All of these ideas apply from the nanoscale and microscale up to large scales and even structures that NASA would deploy into space,

The results have been published in the scientific journal Nanoscale. In their astounding method the researchers use ion beams,

however, in a nano-realm, with a mere distance of fifty nanometers between two dunes--strands of human hair are two thousand times thicker.

Many experiments at different temperatures and comprehensive computations were necessary to both preserve the crystalline state of the semiconducting material as well to produce the well-defined structures at the nanoscale.

consists of a 200 nanometre thin layer of yttrium iron garnet (a mineral and magnetic insulator, YIG in short), with a conducting platinum strip on top of that on both sides.

the UVM team was able to observe nanoscale defects and boundaries in the crystal grains in the thin films of phthalocyanine--roadblocks in the electron highway."

"These silica particles are available in a range of sizes, from nanometre to sub-micron,

which are only 100 nanometers in diameter, or about 10 millionths of an inch wide.

Honeycomb of nanomagnets The magnets are only 63 nanometres long and shaped roughly like grains of rice.

which is a common technique for producing nanometer scale patterns.""That's not necessarily the only way,"said Raman, a co-first-author of the paper."

and characterization of atomically thin 2d hybrid perovskites and introduces a new family of 2d solution-processed semiconductors for nanoscale optoelectronic devices, such as field effect transistors and photodetectors."

A preliminary photoluminescence study indicates a band-edge emission at 453 nanometers, which is shifted red slightly as compared to bulk crystals.

Working with popular 28-nanometer FPGA devices made by Altera Corp. the researchers have demonstrated a monolithically-cooled chip that can operate at temperatures more than 60 percent below those of similar air-cooled chips.

Ion channels are typically about 1 nanometer wide; by maintaining the right balance of ions, they keep cells healthy and stable.

Each graphene pore is less than 2 nanometers wide, making them among the smallest pores through

The researchers used the process to generate nanometer-sized pores in various sheets of graphene,

Based on the model, they found that the diameter of many of the pores was below 1 nanometer,

Knowing this, researchers may one day be able to tailor pores at the nanoscale to create ion-specific membranes for applications such as environmental sensing and trace metal mining."

and looks like uncooked long-grain rice but with nanometer-dimensions. In these new devices, the'rice grains'have been glued together at random points forming a mesh-like structure with lots of open space

reveal how a nanoscale, synthetic version of the precious gem can light up early-stage cancers in nontoxic, noninvasive Magnetic resonance imaging (MRI) scans.

researchers from the University investigated how nanoscale diamonds could help identify cancers in their earliest stages."

researchers need to make it easier to manipulate light at the nanoscale. Researchers at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS) have done just that,

bend, twist and reduce diameter of a beam from the macroscale to the nanoscale, "said Mazur."

Park's team uses software to analyze how the nanoscale topology of a surface--its bumps

which is up to just 100 nanometers thick. The silver nanoparticles dissolve over a period of several weeks,

Nanoscale Speed bump Could Regulate Plasmons for High-speed data Flow The name sounds like something Marvin the Martian might have built,

Computers currently shuttle information around using electricity traveling down nanoscale metal wires. Although inexpensive and easy to miniaturize,

but many times larger than the dimensions of current commercial nanoscale electronics. Plasmonics combines the small size and manufacturability of electronics with the high speeds of optics.

Unlike light, these plasmons are free to travel down nanoscale wires or gaps in metals.

*The plasmonic phase modulator is inverted effectively an, nanoscale speed bump. Eleven gold strands are stretched side by side like footbridges across a 23-micrometer gap just 270 nanometers above the gold surface below them.

Incoming plasmons, created by laser light at one end of the array, travel though this air gap between the bridges and the bottom gold layer.

What we did is stabilized this materials by tuning at the nanoscale with another stable material

with individual layers of approximately 3 nanometers each. esearchers have tried to stabilize Bismuth oxide for almost a century, but failed.

and composition of alloys at the nanoscale. ontrolling size and reaching the smallest 10 nanometer dimensions 1/10,

000 of the diameter of a human hair is something that we have demonstrated before, Schroers said. owever,

and more powerful nanoscale devices#and do so with molecular control and precision. Using a single layer of carbon atoms,

The ability to generate extremely small gaps#known as nanogaps#is highly desirable in fabricating nanoscale structures

it is simply a single layer of carbon atoms and measures approximately 0. 3 nanometers (nm),

The new technology, developed by a team of scientists from Argonne Center for Nanoscale Materials (CNM) and the Advanced Photon Source (APS), involves a small microelectromechanical system (MEMS) mirror only

and tiny MEMS devices form an ideal combination to make 3-D X-ray ultrafast movies with nanometer resolution,

so when researchers pull on one end of the array the CNTS form a continuous ribbon that is only nanometers thick.

Working at the Center for Nanoscale Materials (CNM) and the Advanced Photon Source (APS), two DOE Office of Science User Facilities located at Argonne,

the staff scientist at the Center for Nanoscale Materials who led the project. ut it a very thin membrane made of a single layer of nanoparticles. rgonne researchers are able to fold gold nanoparticle membranes in a specific

They have to be extraordinary narrow they need to be less than 10 nanometres wide. They also must have smooth, well-defined rmchairedges in

and researchers only need to control this process to produce nanoribbons less than 10 nanometres wide.

In Cell Metabolism on August 13, the Harvard scientists who discovered irisin address this contentious issue by showing that human irisin circulates in the blood at nanogram levels

Although irisin circulates at low levels (nanograms this range is observed comparable to that for other important biological hormones such as insulin.

SEM images (false colour) depicting the intricate gel fibre architecture They then discovered that intertwined amongst these microscopic fibres were a profusion of nanoparticles around 100 nanometres in size.

#Major Innovation in Molecular Imaging Delivers Spatial and Spectral Info Simultaneously Using physical chemistry methods to look at biology at the nanoscale,

and back of the sample at the same time and achieved unprecedented optical resolution (of approximately 10 nanometers) of a cell.

and each subcellular structure was a distinct color. o using this method we can look at interactions between four biological components inside a cell in three-dimension and at very high resolution of about 10 nanometers,

such as the ph, in live cells at the nanometer scale

#Scientists visualize critical part of basal ganglia pathways Breakthrough could help see pathways that degenerate with Parkinson and Huntingdon disease Certain diseases,

and then created nanoscale textures on the pillars by wet etching. They then infused the nanotextures with a layer of lubricant that completely coated the nanostructures,

#First Optical Rectenna Combined Rectifier and Antenna Converts Light to DC Current Using nanometer scale components,

Using metallic multiwall carbon nanotubes and nanoscale fabrication techniques, Cola and collaborators Asha Sharma, Virendra Singh and Thomas Bougher constructed devices that utilize the wave nature of light rather than its particle nature.

Ultra-low capacitance, on the order of a few attofarads, enables the 10-nanometer diameter diode to operate at these exceptional frequencies. rectenna is basically an antenna coupled to a diode

that usually means a nanoscale antenna coupled to a metal-insulator-metal diode, Cola explained. he closer you can get the antenna to the diode,

which are placed then in a solution with a nanoscale gel containing the anticancer drug doxorubicin (Dox),

and creating nanoscale spheres made up of platelet membranes with Dox-gel cores. These spheres are treated then

these pseudo-platelets can circulate for up to 30 hours as compared to approximately six hours for the nanoscale vehicles without the coating.

Third, the nanoscale pseudo-platelet is swallowed effectively by the larger cancer cell. The acidic environment inside the cancer cell then begins to break apart the pseudo-platelet freeing the Dox to attack the cancer cell nucleus. In a study using mice,

and understand the intrinsic spin of electrons to advance nanoscale electronics is hampered by how hard it is to measure tiny, fast magnetic devices.

if perfected, could lead to a novel tabletop magnetic measurement technique and new, nanoscale electronic devices based on electrical spin, rather than charge.

Wee talking about nanometers and picoseconds. Scientists have been unable to directly image magnetic motion in nanoscale spintronic devices without hugely expensive X-ray sources at national facilities.

In their own labs, the best they could do was infer magnetic properties from electrical measurements.

such as fabricating gold antennae to excite thermal excitations confined to nanoscale dimensions o

#Restoring vision with stem cells Researchers have succeed in producing photoreceptors from human embryonic stem cells Age-related macular degeneration (AMRD) could be treated by transplanting photoreceptors produced by the directed differentiation of stem cells,

Conducting nanoscale biomolecular research could lead to low-cost DNA sequencing technologies, and in turn create targeted drug delivery systems

Now, a group of researchers funded by The swiss National Science Foundation have developed a new memristor prototype, based on a slice of perovskite just 5 nanometres thick.

which rely on the creation of precise kinds of nanoscale textures on the surface, this system makes use of the tiny irregularities that naturally exist on a metal surface

we used nanoparticles that were about 120 nanometers in size, says Kopelman. o work inside the heart,

but was only 6 nanometers in size. Incredibly tiny even by nanotechnology standards the particle had to pack in the light sensitivity chemical,

The particle has eight nanoscale tentacles, offering plenty of points to attach the chemicals needed for the process.

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