Computer components

Computer case (30)
Hardware (18)
Input devices (11)
Output devices (139)
Processors (incl names) (61)
Removable data storage (3)

Synopsis: Ict: Ict generale: Computer: Computer components:

once embedded under the skin monitors substances in the blood such as glucose and cholesterol so that chronic diseases like diabetes or the effects of treatments such as chemotherapy can be monitored.

#Going digital and printing receipts"cuts out fraud#and increases the value to farmers 9-13%,#he adds.#

The system displays a series of icons representing information on various topics on a screen.

He also developed Com-Me, a collection of hardware and software components to help people with limited access to electricity

the same types of systems can be implemented in skin-mounted configurations for health/wellness monitors or nonbiomedical devices.

and the industrial partners are incorporating the algorithms and hardware innovations into commercial products. In the longer term, Nicola Bui, the former CEO of Patavina Technologies, a project partner based in Italy,

A fibre-optic grid monitors any deformations in the bag (signs of tearing or folding) during its sea voyage.

##This could really be a game-changer for a lot of applications including diagnostics##say James Collins who is a professor of biomedical engineering and medicine at Boston University and a core faculty member at Harvard s Wyss Institute.##

Using a standard laser printer stocked with special wax-based inks he printed patterns of small dots onto uncoated filter paper.

##But I knew that having that core insight was going to enable the whole thing.#####This was Keith s big insightâ##freeze-drying the circuit##says Collins.##I couldn t believe it worked as well as it did.

MORE EFFECTIVE THAN DRUGS The discovery could spawn a new generation of programmable microimplantsensors to monitor vital functions deep inside the body;

Unlike other water splitters that use precious-metal catalysts the electrodes in the Stanford device are made of inexpensive and abundant nickel

professor at Stanford university. his is the first time anyone has used non-precious metal catalysts to split water at a voltage that low.

But scientists have yet to develop an affordable active water splitter with catalysts capable of working at industrial scales. t s been a constant pursuit for decades to make low-cost electrocatalysts with high activity

The new motor has a core and two arms made of DNA one above and one below the core.

As it moves along a carbon-nanotube track it continuously harvests energy from strands of RNA molecules vital to a variety of roles in living cells

The core is made of an enzyme that cleaves off part of a strand of RNA. After cleavage the upper DNA arm moves forward binding with the next strand of RNA

The program runs on two clusters of computers that include 200 processing cores. The Office of Naval Research and Google Inc. support the project.

and entice them to explore how this technology can lead to smaller more energy-efficient processors in the next decaderabaey says.

#Will 3d printing bring space-based solar power to reality? Spiderfab 3-D robotic printer Since the 1970##s, space-based solar power has been a futuristic fantasy

but the advent of 21st#century 3-D printing may bring it a step closer to reality.

Video)##The overall vision is to create a satellite chrysalis with compact, durable software DNA assembly instructions,

Inc. TUI has won two rounds of funding for its Spiderfab 3-D robotic printer from the#NASA Innovative Advanced Concepts#(NIAC) program.

##3-D printing and robotic construction of components on-orbit would allow a smaller, less expensive launch rocket that will##improve performance per cost by orders of magnitude,

Once#in space, TUI s Trusselator, the first step in the Spiderfab architecture, would use 3-D printing techniques

First, the 3-D printer would build a carbon fiber truss structure that would act as a frame for the system.

With the reductions in volume and mass promised by 3-D printing, those launch costs could be reduced significantly,

##and Lobbyists who protect#other energy sources subsidies#who would be##out of their jobs###The term 3-D printing has become a catch-all for a number of purposes

#For now, it is focusing on synthetic meat made with 3d printers.####Artificial food seems to have a particular attraction for young tech barons,

it reduces the role of discretion and skill in farmingheir core competence. However, the bigger problem is that farmers distrust the companies peddling this new method.

which together would monitor, predict, cultivate and extract crops from the land with practically no human intervention.

Developer kits available through the Kickstarter for $200 offer barebones SCIO modules and come with CAD designs for 3d printers.

in addition to developing the hardware, is also populating the first databases and apps that work with the SCIO,

#New 3d printed materials lighter than water and as strong as steel A Nanoscribe 3d printer can print models of the Empire state building in a space the width of a human hair using precision lasers.

Watching the machine build through thelens of an electron microscope is otherworldlybut the printer s potential runs beyond microscale model making.

believe such 3d printers may help craft a new generation of materials lighter than water and strong as steel.

Now, there s the Nanoscribe 3d printer. The printer s mirror-focused laser shines on and hardens a droplet of liquid plastic on a slide.

A computer moves the plate under the laser, selectively hardening it, layer by layer, to match a digital 3d model.

Microscale 3d printing is still new, but it s quickly progressing. In 2012, researchers at the Vienna University of Technology 3d printed a race car and cathedral smaller than a dust mite.

and operated using a micro-entrepreneurial model where local residents would benefit economically from the facilities. he processor wouldn just keep human waste out of the drinking water;

Nature News A transparent, flexible electrode made from graphene could see a one-atom thick honeycomb of carbon first made just five years ago replace other high-tech materials used in displays.

and Hong says that makes the material ideal for use in applications such as portable displays.

The feed relays to a control station, where a human surgeon operates it using joysticks.

i-Teams draft the two professors earned a Deshpande Center for Technological Innovation grant in 2009 allowing for the first demonstration of the hardware showing a 77 percent gain in efficiency over standard systems.

#Spinning out a company has been the best way to validate the technology especially with novel power-electronics hardware Dawson says.

In introducing new hardware you not only have to be better than the product of today

has developed a platform hardware, software, and cloud services that lets manufacturers pick and choose various components

and display that info to a user, says Downey, Airware CEO, who researched and built drones throughout his time at MIT.

and collects and displays data. Airware then pushes all data to the cloud, where it aggregated and analyzed,

or underlying hardware, they just need to connect their software or piece of hardware to the platform,

viewing companies that monitor crops and infrastructure with drones that require specific cameras and sensors as potential early customers.

the development of a standard operating system for drones is analogous to Intel processors and Microsoft DOS paving the way for personal computers in the 1980s.

Then came Intel processors and DOS. Suddenly engineers could build computers around the standard processor and create software on the operating system,

without needing to know details of the underlying hardware. ee doing the same thing for the drone space,

Downey says. here are 600 companies building differing versions of drone hardware. We think they need the Intel processor of the drones,

if you will, and that operating system-level software component, too like the DOS for drones.

The benefits are far-reaching, Downey says: rone companies, for instance, want to build drones and tailor them for different applications without having to build everything from scratch,

it good for the FAA if all of them had reliable and common hardware and software,

To investigate the potential usefulness of CRISPR for creating mouse models of cancer the researchers first used it to knock out p53 and pten

Many models possiblethe researchers also used CRISPR to create a mouse model with an oncogene called beta catenin

But the core technology began as a bit of aerospace ingenuity and has since found its way back to space.

Nanoparticles made from these polymers have a hydrophobic core and a hydrophilic shell. Due to molecular-scale forces

BPA, another endocrine-disrupting synthetic compound widely used in plastic bottles and other resinous consumer goods, from thermal printing paper samples;

and computer screens may seem worlds apart but they're not. When associate professor Qi Hua Fan of the electrical engineering and computer science department set out to make a less expensive supercapacitor for storing renewable energy he developed a new plasma technology that will streamline the production of display screens.

For his work on thin film and plasma technologies Fan was named researcher of the year for the Jerome J. Lohr College of Engineering.

His research focuses on nanostructured materials used for photovoltaics energy storage and displays. Last spring Fan received a proof-of-concept grant from the Department of energy through the North Central Regional Sun Grant Center to determine

Applied Nanofilms and Wintek a company that makes flat panel displays for notebooks and touch screens in Ann arbor Michigan provided matching funds.

Through this project Fan developed a faster way of treating the biochar particles using a new technology called plasma activation.

The technique that treats biochar electrodes for supercapacitors can also be used in making displays explained Fan who was a research scientist at Wintek more than 10 years ago.

and carbon thin films for the company's displays. Plasma processing is a very critical technology in modern optoelectronic materials

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.

His team has made ultrathin nanowires that can monitor and influence what goes on inside cells.

which was designed to inject DNA into mouse zygotes (single-cell embryos consisting of a fertilized egg)."

In this single proof displays we should not toy exploit human embryos and make a commodity of embryos for they are full human life.

Not to mention the potential applications of stem cell-derived organs in toxicology screens for new pharmaceutical compounds

The most defining feature of the system on display at the company showroom in Yokohama is its 3-dimensional use of space. his is tiered a 5 cultivation system.

Professor Shu Kobayashi's group at the Graduate school of Science has developed highly active immobilized catalysts (heterogeneous catalysts)

and demonstrated simple and highly efficient synthesis of (R)- and (S)- rolipram by an eight-step continuous flow reaction using multiple column reactors containing the immobilized catalysts.

Professor Kobayashi's application of flow chemistry techniques to the production of fine chemicals using heterogeneous catalysts has resulted in simple method to synthesize (R)

and without purification of products from catalysts. Professor Kobayashi says"This new technology can be applied to not only other gamma aminobutyric-acids acids and medicines but also various chemicals such as flavors, agricultural chemicals,

Applications of these devices include advanced microscopes, displays, sensors, and cameras that can be mass-produced using the same techniques used to manufacture computer microchips. hese flat lenses will help us to make more compact and robust imaging assemblies,

Manipulating the polarization of light is essential for the operation of advanced microscopes, cameras and displays;

which are relatively open. sing mouse models, the researchers tested their sunblock against direct ultraviolet rays and their ability to cause sunburn.

Commercial businesses can now license Airware Flight Core autopilot technology, Ground Control Station for dispatching drones,

Airware integrated hardware software, and cloud system lets enterprises customize drones to check on gas pipelines,

But long-term, theyl likely be commoditized as hardware makers around the globe clone and undercut each other on price.

Following a brief introduction by Airware CEO Jonathan Downey, CTO Buddy Michini demonstrated Airware core technologies:

the Flight Core autopilot system, which provides the brains to each drone that Airware powers,

Michini was excited also to talk about the App Core which will provide a full-on Linux computer for developers to work with in addition to the standard Flight Core autopilot and Ground Control Station integration.

When it rolls out to select Airware partners this summer, this new system will let customers take advantage of more advanced sensor

Airware can roll out new products like App Core without having to find new companies to sell to or upsell its current customers.

monitor farm land, and survey big tracts of land. Planes and helicopters can be terribly expensive for collecting this overhead video and measurement data, though.

2015 By Alecengineers are increasingly employing 3d printers to solve complex issues in the field of robotics,

3d printing offers a fantastic solution. What they have essentially come up with is a large thick, 3d printed plastic disk, featuring 36 openings on its side,

our proposed method is a unique hardware-based approach by exploiting carefully designed acoustic metamaterials,

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By observing the transmitted video on a TV monitor, doctors can get a firsthand view of the patient organs

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#Graphene 3d files patent for low-cost, toxic-free process for producing high grade graphene for 3d printing Sep 29,

which would dramatically increase the potential for large scale production of high grade graphene, one of the most groundbreaking and highly-sought out materials in 3d printing manufacturing.

graphene is considered a sort of oly grailin 3d printing and manufacturing materials. Made from carbon atoms arranged in a hexagonal sheet only one atom thick, graphene offers extraordinary properties:

including 3d printing services. The honeycomb structure of graphene"The business implications associated with this filing are significant and near term.

"The Calverton, New york-based Graphene 3d Lab is already well-known for the development of proprietary graphene-based nanocomposite materials for 3d printing,

the widespread commercial availability of high grade graphene is sure to impact 3d printing manufacturers, allowing more and more companies to innovate

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3d printing is now being utilized to make sure the inner workings of our bodies are running swimmingly.

Two professors of nanoengineering from the University of California San diego are utilizing advanced 3d printing technology to produce icrofish fish-shaped microrobotic devices geared towards traveling

The microfish were manufactured with microscale continuous optical printing (COP), an advanced, high-resolution form of 3d printing that was created in Chen laboratory.

The COP printer functions at a rapid pace, and is able to produce hundreds of their microfish within seconds of printing.

What makes this printer so efficient is its digital micromirroring array device chip (DMD), containing millions of micromirrors that function separately from one another to cast the desired microfish design onto photosensitive material,

which is solidified then once exposed to UV LIGHT. This advanced process results in these 3d printed microfish, able to swim naturally through liquids,

while being controlled magnetically and propelled by a hydrogen peroxide solution. The nanoengineering team was then able to modify the microfish body with various nanoparticles,

Chen and Wang have conducted demonstrations to show the great potential of combining 3d printing with nanoengineering, installing polydiacetylene (PDA) nanoparticles within the microfish.

helping medical professionals gather their diagnosis from swimming throughout the body with these microfish. 3d printing enthusiasts are amazed oftentimes by

with internal video screens linked to external cameras instead of windows. And Lockheed martin has a commercial plane, the N+2,

hydrophilic (water-loving) shell and a hydrophobic (water-fearing) spherical core. he polymers are synthetized to ensure that

its protecting corona is removed and only the hydrophobic core remains. These akedhydrophobic plastic beads are stabilized not anymore

and also as a cartridge for 3d printing. opo was a joint award winner at the Thought for Food Challenge in Lisbon,

It was applied to the surface of mouse and pig hearts that had suffered from attacks and was found to drive tissue regeneration.

2015groundbreaking research to help control liquids at micro and nano scales July 3rd, 2015$8. 5m Grant For Developing Nano Printing Technology:

4-D printing to advance chemistry, materials sciences and defense capabilities June 18th, 2015discoveries Molecular trick alters rules of attraction for nonmagnetic metals August 5th,

TV screens that roll up. Roofing tiles that double as solar panels. Sun powered cell phone chargers woven into the fabric of backpacks.

Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015realizing carbon nanotube integrated circuits:

Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th,

Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015hybrid solar cell converts both light and heat from sun's rays into electricity (video) September 9th,

Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 201 0

making it possible to conduct late stage diversification of core structures containing benzene. The study, published online on April 10, 2015 in the Journal of the American Chemical Society("para-CH Borylation of Benzene derivatives by a Bulky Iridium Catalyst),

"displays the development of a powerful synthetic method that enables rapid access to para-functionalized benzene derivatives to construct libraries of bioactive compounds that are useful in medicinal chemistry.

I figured that para-selective C-H functionalization would be an extremely useful technique for the late-stage diversification of core structures.

in the journal Nature Nanotechnology("Dielectric metasurfaces for complete control of phase and polarization with subwavelength spatial resolution and high transmission"),could lead to ultracompact optical systems such as advanced microscopes, displays, sensors,

Manipulating the polarization of light is essential for the operation of advanced microscopes, cameras, and displays;

As well as offering new opportunities for industry, it will stimulate the search for even better basic catalysts

Catalysts come in multiple forms including: acids, solid metal nanoparticles, and large protein molecules or enzymes in human bodies.

Ninety percent of industrially important chemicals are made using catalysts. It is a major field in applied science;

This study opens a new way for designing metal-based catalysts with complexities, for example, geometry and composition, promoters and poisons, defects,

#Inexpensive new carbon-based catalysts can be tuned fine The new catalyst is based carbon, made of graphite with additional compounds bonded to the edges of two-dimensional sheets of graphene that make up the material.

Jose-Luis Olivares/MIT) Catalysts enhance the rate of a chemical reaction but are consumed not in the process.

By finding a way to make this material tunable in the same ways as molecular catalysts

In addition to their possible uses in fuel cells, such new catalysts could also be useful for enhancing chemical reactions,

Using mouse models, the researchers tested their sunblock against direct ultraviolet rays and their ability to cause sunburn.

Full open access research for mall-Molecule-Driven Direct Reprogramming of Mouse Fibroblasts into Functional Neuronsby Xiang Li, Xiaohan Zuo, Junzhan Jing, Yantao Ma,

In vivo intracortical recordings from the rat motor cortex illustrate one mode of use for these ECM-NES. mall-Molecule-Driven Direct Reprogramming of Mouse Fibroblasts into Functional Neuronsby Xiang Li, Xiaohan Zuo

First, the laser pulse ploughs through a plasma consisting of positively charged atomic cores and their electrons like a ship through water, producing a wake of oscillating electrons.

"3d printing of metal radically changes that. By looking at 3d printing not for that overall structure

but to create individual modular structures that can be combined, that 3d printing transforms everything, "said Czinger during an interview with Reuters in Silicon valley.

According to Czinger, 3d printing transforms everything by changing the way the structural components of cars are fabricated.

Currently cars are pieced together on long assembly lines inside large factories that use massive amounts of energy.

especially when we are talking about the core enabling technologies, "he said. The core enabling technology, the ability to print out car components that can be assembled easily,

is what Kevin Czinger hopes will revolutionize car manufacturing. He says electric cars are a step in the right direction,

but they believe their new 3d printing method for car manufacturing will have a huge impact on how the cars of the future are built t

and solid state, this magnet material displays physical phase transitions when gradually cooled right down to almost freezing."

because it displays properties that have yet to be found in nature, the complex nanomagnet structure has the potential to provide new methods of information transfer and memory storage,

"says Chris Chang, an expert in catalysts for carbon-neutral energy conversions.""In our system, nanowires harvest solar energy and deliver electrons to bacteria,

As well as offering new opportunities for industry, it will stimulate the search for even better basic catalysts

says Chris Chang, an expert in catalysts for carbon-neutral energy conversions. n our system, nanowires harvest solar energy and deliver electrons to bacteria,

and color of optical materials used in computer screens along with other consumer products. The work is centered on enhancing the arrangement of colloidsmall particles suspended within a fluid medium.

reptiles and insects in their colourful sexual displays to attract mates. Source: University of Exete i

Applications of these devices include advanced microscopes, displays, sensors, and cameras that can be mass-produced using the same techniques used to manufacture computer microchips. hese flat lenses will help us to make more compact and robust imaging assemblies,

Manipulating the polarization of light is essential for the operation of advanced microscopes, cameras and displays;

using 3d printing, and an experimental propulsion system, and tested it inside a pig stomach. The capsule itself is a simple structure, 13mm in diameter,

Sitting somewhere between the traditional art of weaving and the recent home availability of 3d printers,

and a technology which is emerging 3d printing. There is an intersection between these two technologies to achieve something

Now with 3d printing you can scan your foot and you can scan an insole or even a whole sole or the whole shoe at some point. he designer and the chiropodist can say that you need to remove some material here

The idea for the coating evolved from SLIPS a pioneering surface technology developed by coauthor Joanna Aizenberg Ph d. who is a Wyss Institute Core Faculty member and the Amy Smith Berylson Professor of Materials science at Harvard SEAS.

and designed said Peng Yin senior author of the paper Wyss Core Faculty member and Assistant professor of Systems Biology at Harvard Medical school.

All have shipped their inventions to Delhi where they will be on display March 22 for scientists engineers and dignitaries.

Nanoparticles made from these polymers have a hydrophobic core and a hydrophilic shell. Due to molecular-scale forces

BPA, another endocrine-disrupting synthetic compound widely used in plastic bottles and other resinous consumer goods, from thermal printing paper samples;

and a processor to run the show. The Trakür is no exception. Developed in the suburbs of Buenos aires by INTA's rural engineering division, the yellow and white robot resembles a child's Tonka truck (the chassis) with a lighthouse (the sprayer) strapped to the top.

from initial MRI to 3d printing, could be completed within days, said Dr. Mao. They will begin clinical trials once the team has raised enough cash to start printing

The Elgato Eve is a set of connected wireless sensors that monitor key factors like indoor air quality, temperature, humidity as well as conditions outside, like temperature, humidity and air pressure.

Connected thermostat maker ecobee is adding Homekit to its ecobee3 hardware, which is designed for houses that have multiple rooms in need of climate control.

Remote sensors help it monitor temperature in multiple rooms at the same time, letting you save energy and maximize comfort in every area.

The Caséta Smart Bridge is a wireless lighting hub that makes up a core part of the Caséta Wireless Lighting Starter Kit from the company.

and the dedicated medical wearable unveiled today also monitors and reports information continuously, for better delivery of real-time actionable info to researchers and medical professionals.

This isn Google first move in building medical hardware; Google X is also creating contact lenses that can monitor blood glucose level to help in managing conditions like diabetes.

The competition is also eager to contribute to the medical research community pple has introduced Researchkit,

smartphone-based device and app that is made with a 3d printer and can read ELISA plates on-the-spot,

with up to 99.6%accuracy for certain viruses. The new ELISA platform is made on a 3d printer. Image via UCLATO conduct a traditional ELISA test, doctors place antigen samples from the patient onto a surface,

Since 3d printing technology is acknowledged already for being affordable and easily transportable to low-resource areas,

or design novel catalysts for speeding up a variety of chemical reactions,"Gang said. Our work demonstrates the versatility of this approach

With ultrathin solar panels for trim and a USB charger tucked into the waist, the Southwest-inspired garment captured enough sunshine to charge cell phones

along with other researchers developed nanoscale particles that introduce silver antimicrobial potency to a biocompatible lignin core.

Upon disposal, the rest of the particles also degrade easily due to their biocompatible lignin core.

and environmentally responsible method to make effective antimicrobials with biomaterial cores. Velev, INVISTA Professor of Chemical and Biomolecular engineering at NC State.

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