a square array with 100 nano-spirals on a side is less than 0. 01 mm wide. hey are certainly smaller than any of the spirals wee found reported in the scientific literature,
gradually the new networks could explain more experiments in the database comprising most of the known planarian experimental literature regarding head vs. tail regeneration.
and form a homogeneous thin film, so-called SURMOFS. he SURMOF process is suited in principle for a continuous manufacturing process
MOF thin films of a few hundred nanometers in thickness can be used for flexible solar cells or for the coating of clothing material or deformable components.
#Lexus Hoverboard Gets Off The Ground By Michael Greshko, Inside Science-In the classic 1989 film Back to the Future 2,
but will be applied to self-oscillating gels and piezoelectric films for the first time e
#Eye disease Detected-Using A Smartphone Researchers at the Medical and Surgical Center for Retina have developed software that detects eye diseases such as diabetic macular edema using a smartphone.
GHOST researchers are also working with deformable interfaces such as pads and sponges for musicians to flex to control timbre, speed and other parameters in electronic music.
but your own hearing is better in terms of range of frequencies, nuance for hearing voices, music and background noise,
and added a thin film to their nanostructures, as well as a thick coating to the back of the cells,
Gen 1: 28), has encouraged the unbridled exploitation of nature by painting him as domineering and destructive by nature.
The roofing material is made from stacked polymers on top of a thin silver film, and only absorbs an incredible 3 percent of sunlight.
anybody who seen even a small amount of science fiction cinema made in the last 30 years knows wee on dangerous ground here.
3d XPOINT speeds are enabled by its ultra-dense transistor-less architecture, which its makers describe as a hree-dimensional checkerboard where memory cells sit at the intersection of words lines and bit lines Don worry,
The range in which the 3d effect can be experienced can be tuned according to the local requirements. 3d movies in the cinema only show two different pictures--one for each eye.
Today's 3d cinema movies can be converted into our 3d format but we expect that new footage will be created especially for our displays--perhaps with a much larger number of cameras says Franz Fiedler CTO of Trilite Technologies.
when they are assembled in a film. However the UW-Madison researchers pioneered a new technique called floating evaporative self-assembly or FESA
Our carbon nanotube transistors are an order of magnitude better in conductance than the best thin film transistor technologies currently being used commercially
The Rice lab of chemist James Tour discovered last year that firing a laser at an inexpensive polymer burned off other elements and left a film of porous graphene, the much-studied atom-thick
while thin-film lithium ion batteries are able to store more energy, LIG supercapacitors of the same size offer three times the performance in power (the speed at which energy flows).
The work also relies on a specialized software architecture known as deep-learning neural networks. While this approach is not new it requires lots of processing power to work well
On a separate silicon chip they grow a thin flexible film of silicon nitride upon which they deposit the superconductor niobium nitride in a pattern useful for photon detection.
Then to one end of the silicon nitride film they attach a small droplet of polydimethylsiloxane a type of silicone.
With the tungsten probe the researchers peel the film off its substrate and attach it to the optical Chip in previous arrays the detectors registered only 0. 2 percent of the single photons directed at them.
three-dimensional architectures by compressive buckling, "include Yan, Kyungin Jang, Wen Huang, Haoran Fu, Jeonghyun Kim, Zijun Wei, Matthew Flavin, Joselle Mccracken, Renhan Wang, Adina Badea, Yuhao
meaning patients have to spend extra time in the theatre as the surgeon finds the problem.
I went to check the literature to see if anyone's really described multiple-synapse spines before.
Called the Bazan Effect in the literature with the discovery of NDP1 another piece of the puzzle fell into place.
or thin film based technologies are still expensive as they are processed through vacuum-based techniques.
#Major breakthrough in reading ancient scrolls A breakthrough not only in digital imaging techniques the first-of-its-kind software could also have profound impacts on history and literature.
Seales says that each scroll may well be the only remaining copy as of yet unknown literature from the Classical era.
and decipher these ancient scrolls will propel other efforts forward leading to an even greater impact on our understanding of classical history and literature and revolutionary digital imaging.
The research was funded through a grant from Texas Tech's College of Arts and Sciences.
and be applicable to several other material systems plagued by polydispersity, defects and grain boundary recombination in solution-processed thin-films.
Also, it was not possible to synthesize transparent nacre-mimetic films and foils. Andreas Walther and his team decided to use synthetic nanoclays for their nacre-mimetic materials.
these core/shell particles self-assemble into a thin film upon water removal. The whole procedure takes less then 24 hours.
Canine tumors are known to be similar to human tumors in architecture and canines get the same types of tumors as humans.
It acts much like the film in a camera. Retinitis pigmentosa damages this film (the retina) and its early symptoms include decreased night vision and peripheral vision.
Once it starts, the loss of vision is relentlessly progressive, often ending in blindness. In the journal Investigative Ophthalmology & Visual Science, UTHEALTH's Stephen P. Daiger, Ph d,
Dr. Tetsuo Hirano from the Graduate school of Integrated Arts and Science at Hiroshima University found that knockdown of the CCDC26 gene in cells results in significant upregulation of the KIT gene,
#High-temperature superconductivity in atomically thin films A research group has succeeded in fabricating an atomically thin,
high-temperature superconductor film with a superconducting transition temperature (Tc) of up to 60 K(-213°C). The team also established the method to control/tune the Tc.
that can be fabricated into a thin film. The research team at Tohoku University turned its attention to iron selenide (Fese
. While the Tc of bulk Fese is only 8 K(-265°C a signature of higher-Tc superconductivity has been suggested in ultrathin film
The researchers at first fabricated high-quality, atomically thin Fese films Fig. 1, with thickness of between one monolayer (which corresponds to three-atoms thickness) and twenty monolayers (sixty-atoms thickness),
by using the molecular-beam-epitaxy (MBE) method*3. Then they carefully investigated the electronic structure of grown films by angle-resolved photoemission spectroscopy (ARPES)* 4 Fig. 2. In the ARPES measurement,
which is direct evidence of the emergence of superconductivity in the films. The researchers found that the Tc estimated from the gap-closing in a monolayer film is surprisingly high (above 60 K),
While multilayer films do not show superconductivity in the as-grown state, the researchers have discovered a novel method to deposit alkali atoms onto the films
and thereby control the electron density in the film. By employing this method the researchers have succeeded in converting non-superconducting multilayer Fese films into high-Tc superconductors with Tc as high as 50 K. The present result gives a great impact to both the basic
and applied researches in superconductors. The researchers have shown clearly how the superconductivity is emerged, enhanced and controlled in atomically thin Fese films.
While the Tc achieved in this study (50-60 K) is still lower than that of the cuprate high-Tc superconductors (highest Tc?
135 K) which caused the"high-Tc fever"in the world 30 years ago, it obviously exceeds the record of other"high-Tc superconductors"such as fullerene (C60) superconductors (Tc 33 K) and Mgb2 (Tc 39k),
gradually the new networks could explain more experiments in the database comprising most of the known planarian experimental literature regarding head vs. tail regeneration.
Arrayarraythe researchers'printing surface consists of a sandwich-like structure made up of two thin films of silver separated by a"spacer"film of silica.
The top layer of silver film is 25 nanometers thick and is punctured with tiny holes created by a microfabrication process known as focused ion beam milling.
Between the top and bottom films lies a 45-nanometer silica dielectric spacer. The researchers created a scaled-down template of the athletic logo and drilled out tiny perforations on the top layer of the metamaterial structure.
The article, published May 19, is titled"Direct laser-writing of ferroelectric single-crystal waveguide architectures in glass for 3d integrated optics."
and form a homogeneous thin film, so-called SURMOFS.""The SURMOF process is suited in principle for a continuous manufacturing process
Thanks to their mechanical properties, MOF thin films of a few hundred nanometers in thickness can be used for flexible solar cells or for the coating of clothing material or deformable components.
and characterized the nanoscale architectures using electron microscopy at CFN and x-ray scattering at the National Synchrotron Light source--both DOE Office of Science User Facilities.
making custom architectures challenging,"said lead author Pawel Majewski, a postdoctoral researcher at Brookhaven.""Our laser technique forces the materials to assemble in a particular way.
To further exploit the power and precision of LZA, the researchers applied a heat-sensitive elastic coating on top of the unassembled polymer film.
the system reduces the conventional battery architecture's number of distinct layers, as well as the amount of nonfunctional material in the structure, by 80 percent.
So they set about designing a nanostructure architecture that could provide more'bang for the buck'.'Having previously used plasmonic materials to generate color prints at the optical diffraction limit by carefully varying the nanostructure size and spacing,
and piezoelectric (PZ) films,"appeared June 24th in the journal Scientific Reports, published By nature (DOI: 10.1038/srep11577.
but will be applied to self-oscillating gels and piezoelectric films for the first time e
#Graphene: Magnetic sensor 100 times more sensitive than silicon equivalent Scientists have created a graphene-based magnetic sensor 100 times more sensitive than an equivalent device based on silicon.
but cellulose nanofibrillated fiber films have the potential to replace silicon wafers as electronic substrates in environmental friendly, low-cost, portable gadgets or devices of the future.
Ma's team employed silicon nanomembranes as the active material in the transistor--pieces of ultra-thin films (thinner than a human hair) peeled from the bulk crystal
The patented device involves a thin film of aluminum deposited on top of a silicon layer placed under strain,
so I looked in the literature for anything similar.""Clemmons found a study from Finland published in 2005 showing that elevated glycated protein levels were associated strongly with advanced heart disease and increased mortality in women but not in men."
Portions of the wafer masked with thin film physically block the etching from being carried out except on the open surface areas.
but your own hearing is better in terms of range of frequencies, nuance for hearing voices, music and background noise,
A film, spin-coated on the wafer, contained a block copolymer, which directed the assembly of a polymer resin.
Writing lines in the film with the laser, the block copolymer decomposed, acting like a positive-tone resist,
or LEDS, the UC Berkeley researchers were able to heat electrons at the interface of thin films of gold and a DNA solution.
For their experiments, the researchers used thin films of gold that were 120 nanometers thick,
when an opera singer hits just the right note to cause a champagne glass to resonate
there will be a concert under the stars and the full Blue moon capped by a"specialty beer release."
The big concert of the night will be at Coors Field, featuring Big data with special guest Robert Delong,
where there will be four rooftop concerts. Blue moon plans to open another brewery and tasting room in Denver's River North neighborhood e
There also interactive cinema, productivity for finance and security, virtual market research, dangerous situation simulation, and design studies.
She spent four years at Sony Computer Entertainment and then became a social gaming director at Japanese mobile gaming firm GREE,
microfluidic films is applied to those tiny pieces, forcing them back into untangled, proper form. his method could transform industrial
when sensors are applied directly to the body researchers are seeking to fabricate electronic components on flexible substances such as polymeric film.
The work also relies on a specialized software architecture known as deep-learning neural networks. While this approach is not new
You just need to rub it to transfer the film. Remarkable efficiency For the experiment, the Stanford team stacked a perovskite solar cell with an efficiency of a 12.7 percent on top of a low-quality silicon cell with an efficiency of just 11.4 percent. y combining two cells
Hundreds of Images at Once3d movies in the cinema only show two different pictures one for each eye.
which has already been developed by the researchers. oday 3d cinema movies can be converted into our 3d format
The Rice lab of chemist James Tour discovered last year that firing a laser at an inexpensive polymer burned off other elements and left a film of porous graphene, the much-studied atom-thick
while thin-film lithium ion batteries are able to store more energy, LIG supercapacitors of the same size offer three times the performance in power (the speed at which energy flows).
when they are assembled in a film. However, the UW-Madison researchers pioneered a new technique,
Our carbon nanotube transistors are an order of magnitude better in conductance than the best thin film transistor technologies currently being used commercially
or even teach sulphur chemistry anymore, said Nazar. t ironic we had to look so far back in the literature to understand something that may so radically change our future.
Stoddart is the Board of trustees Professor of Chemistry in Northwestern Weinberg College of Arts and Sciences. ll living organisms,
or producing a film the size of a postage stamp using a laboratory furnace. But the new method promises to enable continuous production,
such as thin-film heaters may work well enough with lower-quality sheets, says Hart, who is the Mitsui Career development Associate professor in Contemporary Technology at MIT.
or atomic fingerprint, were unreported in scientific literature. ISEM, led by Professor Shi Xue Dou was the first research group in Australia to make silicene
In their broader uses, microbial polymers are used for food production, chemical production, detergents, cosmetics, paints, pesticides, fertilizers, film formers, lubricants, explosives, pharmaceutical production and waste treatment.
The team used a geometric structure to lowthe bubbles into shape in a very thin film.
Jonathan Cohen/binghamton. eduorigami is imagined usually as an art form to create paper shapes of birds, turtles or even more original small sculptures.
Just like origami sculptures. This device is not a conventional battery we all know and use.
thicker electrodes, the system reduces the conventional battery architecture number of distinct layers, as well as the amount of nonfunctional material in the structure, by 80 percent.
the polymer snaps back to the initial architecture and retains the remaining drug molecules . or each different drug the team would need to find the corresponding optimal electromagnetic field for its release,
Gao first had to figure out how to grow polypyrrole in a long vertical architecture, which allows it to hold larger amounts of a drug
Pitch Perfect Data transmission The UC San diego researchersapproach is akin to a concert master who tunes multiple instruments in an orchestra to the same pitch at the beginning of a concert.
and piezoelectric (PZ) films, appeared online June 24, 2015 in the journal Scientific Reports, published By nature (DOI:
but will be applied to self-oscillating gels and piezoelectric films for the first time. Source: NSF, University of Pittsburg
more cidicor asic, depending on the curvature in the 3-D carbon architecture
#Helium alloonsoffer new path to control complex materials Researchers at the Department of energy Oak ridge National Laboratory have developed a new method to manipulate a wide range of materials
Ward said. y controlling the number of helium atoms inserted into an epitaxial film, we select a strain state in one direction
A film, spin-coated on the wafer, contained a block copolymer, which directed the assembly of a polymer resin.
Writing lines in the film with the laser, the block copolymer decomposed, acting like a positive-tone resist,
allowing you to listen to music and receive phone calls by means of wireless transmission of sound directly to the hearing aid.
The metamaterial, a nanostructure of rotated slits etched into a gold film, changes the phase of the surface plasmons generated at each slit relative to each other,
Portions of the wafer masked with thin film physically block the etching from being carried out except on the open surface areas.
but your own hearing is better in terms of range of frequencies, nuance for hearing voices, music and background noise,
This makes it ideal for gaming and other entertainment applications as well as training simulations remote medicine and a wide variety of other business, civil and military uses. 3d Tau SSE technology is designed to be embedded directly into a new generation of screens for televisions, movie theaters, computer displays, game
with applications in entertainment, education, scientific modeling and simulators for training, transportation and industrial uses.
As part of the study, Scott and San miguel put a film of ds RNA on plate glass
For example, they added the nanosheets to a film of polyvinyl chloride, thereby doubling its strength and increasing its tensile toughness sixfold.
Sato said. he new study makes use of the split Cas9 architecture to enable light-activated genome editing,
said Prof Wolfgang Viöl of the Fraunhofer Institute for Surface Engineering and Thin Films, who developed the technique working with the company Cinogy and the Department of Dermatology, Venereology and Allergology at the University Medical centre Göttingen.
new architectures will be developed alongside software formats that can make use of all that raw power w
000 times faster than the NAND architecture underlying most flash memory cards and solid state drives. The new architecture does without transistors entirely,
relying on a bulk material property change to switch bits from a low-resistance to a high-resistance state.
play music storeed in the phone and other functions. And they can do it any of three ways:
"Although the literature is not robust, if you take 100 physicians and have them examine the same patient they agree about 80 percent of the time,
scientists need to develop a scalable architecture that allows full control over individual electrons in computational arrays.
navigation, in-car entertainment and also monitor the driver. Using surround vision, it will provide the drivers a 360 degree view of the car in real time.
And, in fact, there a growing literature about so-called obotic swarmswhich are essentially drones or bots that can be programmed to behave intelligently during combat.
The engineers liken their discovery to tuning all the instruments in an orchestra before beginning a concert.
XPOINT gets the 3d addition to the moniker through a crosspoint architecture with memory cells stacked multiple layers throughout a 3d structure.
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