exterior shell and a conductive iron-nickel core. In a paper published this week in the Journal of Applied Physics
National Centre for Basic Sciences, mixed nickel oxide and iron oxide as a hybrid material and fabricated the novel core/shell nanostructure electrode."
In Singh's experiment, the core/shell hybrid nanostructure was fabricated through a two-step method. Using a standard electro-deposition technique,
eventually developing a highly porous iron oxide-nickel oxide hybrid shell around the iron-nickel core."
"The advantage of this core/shell hybrid nanostructure is that the highly porous shell nanolayer provides a very large surface area for redox reactions
"The remarkable electrochemical performances and material properties suggest that the iron oxide-nickel oxide hybrid core/shell nanostructure could be a reliable and promising candidate for fabricating the next generation lightweight, low-cost
#Nanotechnology Helps Increasing Rate of Digital data Processing, Storage Iranian researchers proposed a new method based on nanotechnology to increase the rate of digital data processing and storage.
Small but quick memory cells can be designed by using the results of the research for the production of computers, mobile phones and smart TVS.
Quantum Cellular Automata (QCA) is one of the emerging technologies at nanometric scale for the production of future digital circuits.
and added,"There are some challenges in the implementation of this element for data storage in quantum cellular automata.
In this research, unique properties of quantum cellular automata technology have been used to increase the rate of data storage
and data recovery processes in digital systems. In the end, a novel structure has been designed for a single-bit memory cell."
The majority of digital systems, including computers, mobile phones and smart TVS use memory cells for data storage and data recovery.
as well as specific sites where Nano-85 and the P domain formed bonds. According to Hansman,"this is,
"Interestingly, the investigators found that the site where Nano-85 bound to the P domain was hidden actually under the viral particle's surface."
"From the virus's point of view, this could be a strategy to keep potentially vulnerable sites protected from attack,
Utah engineers take big step toward much faster computers The Utah engineers have developed an ultracompact beamsplitter--the smallest on record--for dividing light waves into two separate channels of information.
and shuttle data with light instead of electrons. Electrical and computer engineering associate professor Rajesh Menon and colleagues describe their invention today in the journal Nature Photonics.
Silicon photonics could significantly increase the power and speed of machines such as supercomputers, data center servers and the specialized computers that direct autonomous cars and drones with collision detection.
Eventually the technology could reach home computers and mobile devices and improve applications from gaming to video streaming."
"Light is the fastest thing you can use to transmit information, "says Menon.""But that information has to be converted to electrons
when it comes into your laptop. In that conversion, you're slowing things down. The vision is to do everything in light."
"Photons of light carry information over the Internet through fiber-optic networks. But once a data stream reaches a home or office destination,
the photons of light must be converted to electrons before a router or computer can handle the information.
That bottleneck could be eliminated if the data stream remained as light within computer processors.""With all light, computing can eventually be millions of times faster,
"says Menon. To help do that, the U engineers created a much smaller form of a polarization beamsplitter
(which looks somewhat like a barcode) on top of a silicon chip that can split guided incoming light into its two components.
Before, such a beamsplitter was over 100 by 100 microns. Thanks to a new algorithm for designing the splitter,
Menon's team has shrunk it to 2. 4 by 2. 4 microns, or one-fiftieth the width of a human hair and close to the limit of what is physically possible.
The beamsplitter would be just one of a multitude of passive devices placed on a silicon chip to direct light waves in different ways.
mobile devices such as smartphones or tablets built with this technology would consume less power, have longer battery life
and generate less heat than existing mobile devices. The first supercomputers using silicon photonics--already under development at companies such as Intel
and IBM--will use hybrid processors that remain partly electronic. Menon believes his beamsplitter could be used in those computers in about three years.
Data centers that require faster connections between computers also could implement the technology soon, he says s
#What makes cancer cells spread? New device offers clues Why do some cancer cells break away from a tumor
and travel to distant parts of the body? A team of oncologists and engineers from the University of Michigan teamed up to help understand this crucial question.
The researchers were then able to take the sorted cells that were highly mobile and begin to analyze them on a molecular level."
"says study co-lead author Yu-Chih Chen, a postdoctoral researcher in Electrical engineering and Computer science at the University of Michigan College of Engineering.
and biology,"says study co-senior author Euisik Yoon, Ph d.,professor of electrical engineering and computer science and of biomedical engineering and director of the Lurie Nanofabrication Facility at the U-M College of Engineering."
#Printing 3-D graphene structures for tissue engineering: A new ink formulation allows for the 3-D printing of graphene structures Abstract:
Ever since single-layer graphene burst onto the science scene in 2004, the possibilities for the promising material have seemed nearly endless.
"Supported by a Google Gift and a Mccormick Research Catalyst Award, the research is described in the paper"Three-dimensional printing of high-content graphene scaffolds for electronic and biomedical applications,"published in the April
"We've expanded that biomaterial tool box to be able to optimize more mimetic engineered tissue constructs using 3-D printing g
Grafysorber has been tested firstly industrially in a Romanian former refinery site, containing a basin with about 30.000 m3 of water contaminated with petroleum hydrocarbons.
May 20th, 2015toward'green'paper-thin, flexible electronics May 20th, 2015globalfoundries Offers New Low-power 28nm Solution for High-performance Mobile and Iot Applications:
May 20th, 2015toward'green'paper-thin, flexible electronics May 20th, 2015globalfoundries Offers New Low-power 28nm Solution for High-performance Mobile and Iot Applications:
2015events/Classes Nanometrics Announces Live webcast of Upcoming Investor and Analyst Day May 20th, 2015globalfoundries Offers New Low-power 28nm Solution for High-performance Mobile and Iot Applications:
2015delmic announces a workshop hosted by Phenom World on Integrated CLEM to be held on Wednesday June 24th at the Francis Crick Institute (Lincoln Inn Fields Laboratory).
May 19th, 2015nnco and Museum of Science fiction to Collaborate on Nanotechnology and 3d printing Panels at Awesome Con May 19th, 201 0
it can generate full 3d data from the object in a completely non-intrusive way
and processes this data to extract and interpret features invisible to the naked eye, in a way that has never been done before.
and the project aims to make the results available through a smartphone and tablet app to be exploited by local and regional museums.
The app is currently being trialled at one of the partners the Asturias Fine art Museum in Oviedo.
drug testing, stem cell therapies and the delivery of drugs directly to the site of infection.
They are used also in other industries to manufacture fuel cells, batteries, filters and light-emitting screens."
"Plus, users don't have to worry about the safety issues of using high voltages or the complexity of other machines."
"Several drugs are quite effective in treating different types of breast cancers, lung cancer, lymphoma and other cancers at their original sites,
"Publication Date (Web: April 23, 2015. DOI: 10.1021/acsnano. 5b01872: News and information Who needs water to assemble DNA?
Media & Telecom Conference May 21st, 2015samtec, Global Provider of Interconnect Systems, Joins IRT Nanoelec Silicon photonics Program May 21st, 2015govt.
A nano array image of Vermeer famous painting irl with a Pearl Earring which brilliantly displays her ruby lips
The user can view the full colour image in both transmission and reflection (shining a light on
which could have a potential impact for data storage application. When collected in powders, the material exhibits magnetic properties that rival those of permanent magnets that generally contain rare earth elements.
and head-mounted displays can improve safety and performance in fields such as aeronautics and automotive,
where the displays allow pilots and drivers to receive key navigation data and information in their line of sight.
For consumers, smart glasses or nomadic projection devices with augmented reality provide directions, safety updates advertisements and other information across the viewing field.
Announced during Display Week 2015 in San jose, Calif, . Leti technology innovation IS LED based on micro arrays that are hybridized on a silicon backplane.
and 100 kcd/m for full-color devices with a device size below one inch and 2. 5 million pixels.
The material scientists published their latest research data in todays issue (Friday, 5 june) of the renowned scientific journal Advanced Electronic Materials.
The material scientists published their latest research data in todays issue (Friday, 5 june) of the renowned scientific journal Advanced Electronic Materials.
'internet: www. uni-kiel. de, Jubilee: www. uni-kiel. de/cau350twitter: www. twitter. com/kieluni, Facebook:
www. facebook. com/kielunicopyright Alphagalileoissuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
Bookmark: Full bibliographic information News and information Next-generation illumination using silicon quantum dot-based white-blue LED June 7th,
Garmor Inc, Increases Capacity for Manufacturing Graphene oxide at Customer Sites June 2nd, 2015chip Technology Moving sector walls on the nano scale June 6th, 2015fei Launches New
2015production of Nanocomposites by Using Direct Nano-Welding of Micromaterials in Iran June 4th, 2015environmental Issues to Hamper Growth of Global Nanocomposites Market June 4th, 2015optical computing/Photonic computing New
2015entangled photons unlock new supersensitive characterisation of quantum technology June 1st, 2015stanford breakthrough heralds super-efficient light-based computers:
Light can transmit more data while consuming far less power than electricity, and an engineering feat brings optical data transport closer to replacing wires May 29th,
2015dna Double Helix Does Double Duty in Assembling Arrays of Nanoparticles: Synthetic pieces of biological molecule form framework and glue for making nanoparticle clusters and arrays May 25th, 2015discoveries Tissue Engineering Scaffolds Produced from Natural Silk in Iran June 8th,
or by taking'screen shots'in a static fashion of individual nanostructures with electron microscopy.''That process is like taking photos every 10 minutes of a football game
Garmor Inc, Increases Capacity for Manufacturing Graphene oxide at Customer Sites June 2nd, 2015military Production of Nanocomposites by Using Direct Nano-Welding of Micromaterials in Iran June 4th,
The team used large-scale atomistic computations on the Mira supercomputer at the Argonne Leadership Computing Facility to prove that the effect could be seen not merely at the nanoscale but also at the macroscale."
"Sumant added,"will be crucial in finding ways to reduce friction in everything from engines or turbines to computer hard disks and microelectromechanical systems."#
The Center for Nanoscale Materials and the Argonne Leadership Computing Facility are DOE Office of Science User Facilities.
New ideas are bubbling up for more efficient computer memory Abstract: Researchers at UCLA and the U s. Department of energy's Argonne National Laboratory announced today a new method for creating magnetic skyrmion bubbles at room temperature.
could we use them to represent 1s and 0s in computer memory? Transistors, which form the basis of today's computing,
are tiny devices that stop the flow of electric current (off and on, 1 and 0). But there's a limit to how small we can make them,
very low temperatures (below 450 degrees Fahrenheit) with expensive equipment like spin-polarized scanning tunneling microscopes--not practical for making consumer devices like laptops,
Using the Center for Nanoscale Materials, a DOE Office of Science user facility at Argonne,
The Center for Nanoscale Materials is a DOE Office of Science user facility.#####About Argonne National Laboratoryargonne National Laboratory seeks solutions to pressing national problems in science and technology.
Inc. Announces Launch of Heat shield (TM) EPX4 Thermal Insulation and Chemical Resistant Coating June 12th, 2015aspen Aerogels to Webcast 2015 Annual Meeting of Stockholders June 11th, 2015framework
The ETH professor is convinced that the industrial importance of these materials will even further increase-for example, in gas sensors, new classes of data storage and computer circuits,
This supports the development of future gas sensors, ion-based data storage and micro energy converters, such as fuel cells-and potentially a range of other as yet unknown applications in the promising field of ionics.##
Literature reference News and information Designer electronics out of the printer: Optimized printing process enables custom organic electronics June 16th, 2015pixelligent Closes $3. 4 Million in Funding:
2015a KAIST research team develops the first flexible phase-change random access memory June 15th, 2015argonne scientists announce first room-temperature magnetic skyrmion bubbles:
New ideas are bubbling up for more efficient computer memory June 13th, 2015iranian Researchers Model, Design Optical Switches June 13th,
2015memory Technology A KAIST research team develops the first flexible phase-change random access memory June 15th, 2015argonne scientists announce first room-temperature magnetic skyrmion bubbles:
New ideas are bubbling up for more efficient computer memory June 13th, 2015iranian Researchers Model, Design Optical Switches June 13th,
Graphene and diamonds prove a slippery combination June 10th, 2015sensors Designer electronics out of the printer:
2015mipt physicists develop ultrasensitive nanomechanical biosensor June 9th, 2015new composite material as CO2 sensor June 8th, 2015discoveries Designer electronics out of the printer:
Rice-led experiments demonstrate solid-state carbon nanotube'templates'June 15th, 2015materials/Metamaterials Designer electronics out of the printer:
electronics out of the printer: Optimized printing process enables custom organic electronics June 16th, 2015nanoparticles naturally fall into left-and right-handed versions June 16th,
Columbia engineers and colleagues create bright, visible light emission from one-atom thick carbon June 15th, 2015energy Designer electronics out of the printer:
Paper Manufacturer Recognized for Lowering Energy costs and Carbon emissions June 15th, 2015a protective shield for sensitive catalysts:
Hydrogels block harmful oxygen June 15th, 2015automotive/Transportation A protective shield for sensitive catalysts: Hydrogels block harmful oxygen June 15th, 2015slip sliding away:
2015ais Introduces Industry 4. 0 Ready, Industrial Controls and Factory Automation HMI Touch-Panels, for Easy Visual, Control and Monitoring in Discrete and Process Automation Industries
2015researchers synthesize magnetic nanoparticles that could offer alternative to Rare earth magnets June 1st, 2015fuel Cells A protective shield for sensitive catalysts:
a DOE Office of Science User Facility.""Although surface atoms represent a minuscule fraction of the total number of atoms in a material, these atoms drive a large portion of the material's chemical interactions with its environment."
ranging from the catalysts used for the generation of energy-dense fuels from sunlight and carbon dioxide, to how bridges and airplanes rust."
For more information, please visit the Office of Science website at science. energy. gov/.For more information,
New ideas are bubbling up for more efficient computer memory June 13th, 2015national Maglab achieves record high field of 27 Tesla in an all-superconducting magnet using Oxford instruments 15 Tesla outsert system June 12th, 2015framework materials yield to pressure June 11th,
"##The research team included faculty members in bioengineering, chemical and biomolecular engineering, chemistry, electrical and computer engineering and mechanical science and engineering;
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
. 5m Grant For Developing Nano Printing Technology: 4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015cancer First full genome of a living organism assembled using technology the size of smartphone June 15th,
2015paper Published on Keystone Nanos Ceramide Nanoliposome Program June 11th, 2015lehigh University researchers unveil engineering innovations at Techconnect 2015:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015a new way to image surfaces on the nanoscale:
Method could be useful in developing green energy and a better understanding of rust June 18th, 2015registration in 8th Int'l Iran Nano Expo 2015 Starts June 18th, 2015interviews/Book reviews
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
Inside each chip are millions of tiny wires to transport data; wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015a new way to image surfaces on the nanoscale:
Method could be useful in developing green energy and a better understanding of rust June 18th, 2015graphene heat-transfer riddle unraveled June 17th, 201 0
and computer simulation and modeling. They are currently working on adapting the engineering lessons learned from the study of Saharan silver ants to create flat optical components,
and fireflies use flash communication systems, Yu adds. rgans evolved for perceiving or controlling electromagnetic waves often surpass analogous man-made devices in both sophistication and efficiency.
and touchscreen electronics. The scientists synthesized the materials at Brookhaven Lab's Center for Functional Nanomaterials (CFN)
and x-ray scattering at the National Synchrotron Light source--both DOE Office of Science User Facilities.
"This tool allows us to apply drugs as needed directly to the site of injury, which could have broad medical applications,
and transported a patch of the nanowire carpet on water droplets that were used used to deliver it to the site of injury.
The nanowire patches adhere to the site of injury through surface tension Gao said. The magnitude and wave form of the electromagnetic field must be tuned to obtain the optimum release of the drug,
"By the time the drug diffuses from the site out into the rest of the body it is in amounts that are undetectable in the usual tests to monitor the concentration of drugs in the bloodstream."
News and information n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches
Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
-Legislation/Regulation/Funding/Policy NNI Publishes Workshop Report and Launches Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
000 Qubit Processor and Is discussed in the Economist June 23rd, 2015leti to Present Solutions to New Applications Using 3d Technologies at SEMICON West Letiday Event, July 14:
electronic devices June 22nd,2015$8. 5m Grant For Developing Nano Printing Technology: 4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015discoveries Nanometric sensor designed to detect herbicides can help diagnose multiple sclerosis June 23rd, 2015sweeping lasers snap together
nanoscale geometric grids: New technique creates multilayered, self-assembled grids with fully customizable shapes and compositions June 23rd,
Free Download Available on Firms Website June 24th, 2015uk Graphene Open for Business with Asia June 23rd,
Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches Web portal on Nanosensors:
, Free Download Available on Firms Website June 24th, 2015nni Publishes Workshop Report and Launches Web portal on Nanosensors:
Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology: Improving and Protecting Health, Safety,
"Quantum dots, which have use in diverse applications such as medical imaging, lighting, display technologies, solar cells, photocatalysts, renewable energy and optoelectronics, are typically expensive and complicated to manufacture.
supplied by Lehigh's Faculty Innovation Grant (FIG) and Collaborative Research Opportunity Grant (CORE) programs.
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
2015nni Publishes Workshop Report and Launches Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
2015nni Publishes Workshop Report and Launches Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
2015nni Publishes Workshop Report and Launches Web portal on Nanosensors: Both outputs support the Nanotechnology Signature Initiative Nanotechnology for Sensors and Sensors for Nanotechnology:
#World#s 1st Full-Color, Flexible, Skin-Like Display Developed at UCF A breakthrough in a University of Central Florida lab has brought those scenarios closer to reality.
flexible thin-film reflective display. Chanda research was inspired by nature. Traditional displays like those on a mobile phone require a light source, filters and a glass plates.
But animals like chameleons, octopuses and squids are born with thin flexible, color-changing displays that don need a light source their skin. ll manmade displays LCD, LED,
CRT are rigid, brittle and bulky. But you look at an octopus, they can create color on the skin itself covering a complex body contour,
and create a skin-like display? As detailed in the cover article of the June issue of the journal Nature Communications,
full-color tunable display. His method is groundbreaking. It a leap ahead of previous research that could produce only a limited color palette.
And the display is only about few microns thick, compared to a 100-micron-thick human hair.
Such an ultrathin display can be applied to flexible materials like plastics and synthetic fabrics. The research has major implications for existing electronics like televisions,
computers and mobile devices that have considered displays thin by today standards but monstrously bulky in comparison.
But the potentially bigger impact could be whole new categories of displays that have never been thought of. our camouflage
Researchers used a simple and inexpensive nano-imprinting technique that can produce the reflective nanostructured surface over a large area. his is a cheap way of making displays on a flexible substrate with full-color generation,
The same team have discovered recently that Graphexeter is also more stable than many transparent conductors commonly used by, for example, the display industry.
Now, Professor Takao Someya's research group at the University of Tokyo's Graduate school of Engineering has developed an elastic conducting ink that is easily printed on textiles and patterned in a single printing step.
The results demonstrate a powerful operando technique--from the Latin for"in working condition"--that may revolutionize research on catalysts, batteries, fuel cells,
They conducted x-ray studies at the National Synchrotron Light source (NSLS) and electron microscopy at the Center for Functional Nanomaterials (CFN), both DOE Office of Science User Facilities."
and distribution of catalysts affect their efficiency and durability,"said study coauthor Ralph Nuzzo of the University of Illinois at Urbana-Champaign."
we can better determine the ideal design of future catalysts--especially those that drive energy-efficient reactions without using expensive and rare materials like platinum."
"The XAS and TEM data, analyzed together, let us calculate the numbers and average sizes of not one,
but several different types of catalysts,"said coauthor and Yeshiva University scientist Anatoly Frenkel, who led the x-ray experiments."
"For the first time, the operando approach was used to correlate data obtained by different techniques at the same stages of the reaction."
"A relatively straightforward mathematical approach allowed them to deduce the total number of ultra-small particles missing in the TEM data."
"We took the full XAS data, which incorporates particles of all sizes, and removed the TEM results covering particles larger than one nanometer--the remainder fills in that crucial subnanometer gap in our knowledge of catalyst size
Added Stach,"In the past, scientists would look at data before and after the reaction under model conditions, especially with TEM,
"Each round of data collection took six hours at NSLS, but will take just minutes at NSLS-II,
a limited-liability company founded by the Research Foundation for the State university of New york on behalf of Stony Brook University, the largest academic user of Laboratory facilities,
PEMFC are leading candidates to power the space shuttle and other mobile applications even down to mobile phones,
it can poison the platinum catalysts that are important to driving the fuel cell. In the heart of a fuel cell, CO binds tightly to platinum
which contains impurities (e g. carbon monoxide) that poison precious metal catalysts (e g. platinum) only at low temperatures (less than 120°C)
Mother Nature can build very efficient catalysts. Environmental mechanisms sourced from Canadelectrochimcanadelectrochim is a small Research and development company located in Calgary,
the common computer chip material June 29th, 2015x-rays and electrons join forces to map catalytic reactions in real-time:
the common computer chip material June 29th, 2015x-rays and electrons join forces to map catalytic reactions in real-time:
the common computer chip material June 29th, 2015x-rays and electrons join forces to map catalytic reactions in real-time:
the common computer chip material June 29th, 2015x-rays and electrons join forces to map catalytic reactions in real-time:
Researchers in UCSB's Department of Electrical and Computer engineering are seeking to make computer brains smarter by making them more like our own May 11th, 2015making robots more human April 29th, 2015lifeboat Foundation launches Interactive Friendly AI April 6th,
New technique combines electron microscopy and synchrotron X-rays to track chemical reactions under real operating conditions June 29th, 2015buckle up for fast ionic conduction June 16th, 2015a protective shield for sensitive catalysts:
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