We have formulated an ipad game that could drive the neural circuitry behind episodic memory by stimulating the ability to remember where things were on the screen,
which plays on the idea of having to remember different locations of characters on the screen of an ipad.
but harder to read on the tiny screens of mobiles. In doing so, it recognised one of the most important changes during its 17 years like Google itself,
the logo had been designed to be looked at on screens, but now a huge proportion of web browsing is done from phones and other mobile devices n
leaks show Force Touch display, subtly altered size The pictures are one of the first glimpses of the iphone 6s Plus,
which allows the phone screen to be pressure sensitive to allow extra input options. The pictures, reported to have leaked from the Taiwanese supply chain,
As well as the slightly larger size and changed display they appear to feature a bigger front camera.
As well as better hardware for more clear photos, the software will be improved ncluding a feature that will use the screen to create a flash for taking pictures in the dark.
Apple Force Touch powered by the small sensor that can be seen in the centre of the display allows the phone to tell how hard its screen is being pressed
and trigger extra events on screen. Some details of how exactly it will work have already been revealed
helping users interact with its small screen. It was added then to Apple Macbooks, giving extra options for how quickly to fast forward, for instance d
#Biomedical 3d printing Company Signs Agreement with Xilloc for Licensing, Sale of 3d-Printed Bones in Europe (3ders. org) NEXT 21 K. K,
. an innovative Japanese biomedical 3d printing company, has created a 3d bone printer capable of producing artificial bone structures for humans.
His technology from Conformis uses a 3d printer to produce a jig specifically built for an individual patient.
The jigs that come from 3d printing are based on CT SCAN data and fit the patient anatomy.
an experiment that has never been attempted before. xman team used Stratasystriple-jetting 3d printing to create a large fluid network within Mushtari that varied in transparency from opaque to clear.
Such mechanical and optical property gradation can only be achieved using multi-material 3d printing with high spatial resolution for manufacturing
and can be printed using an inkjet printer. Shimizu stressed that it is tough to have both features at the same time,
it usually clogs the heads of the printer ink cartridge. But Agic he said, has succeeded in preventing this.
#Mobile Eye-test Device Could Lead to Prescription Virtual-reality Screens After five years of development and about 40,000 tests worldwide,
But on the heels of its commercial release, Eyenetra says it been courting offers from virtual-reality companies seeking to use the technology to develop ision-correctedvirtual-reality displays. s
Users attach a smartphone, with the startup app, to the front and peer through the headset at the phone display.
or circles, appear on the screen. The user turns a dial to align the patterns
The app then displays the refractive powers, axis of astigmatism, and pupillary distance required for eyeglasses prescriptions.
is to use the startup technology to develop custom screens to fit a user eyeglass prescription.
Prescription screens could make virtual-reality devices more formfitting for a more immersive and comfortable experience,
Therefore, companies could use these precise measurements to develop screens that are corrected pre to a user specific refraction errors. t personalized correction
Essentially, Netra replaces the expensive sensor with a smartphone display. Because the red and green light goes through different parts of the eye,
The researchers made the implants using a 3d printer. Three-dimensional printers can create items from a wide variety of materials:
plastic, ceramic, glass, metal and even more unusual ingredients such as living cells. The machines work by depositing layers of material,
just as ordinary printers lay down ink, except 3d printers can also lay down flat layers on top of each other to build 3d objects.
Advances in 3d printing have enabled the rapid production of medical devices that are customized for individual patients, such as hearing aids, dental implants and prosthetic hands.
However, devices made of rigid materials are often unsuitable for young patients who can quickly outgrow the implants.
Recently, scientists began developing techniques to try to accomplish 4d printing which involves 3d printing items that are designed to shape-shift after they are printed.
Green and his colleagues reasoned that 4d items could grow with young patients if needed."
"This is the first time 3d printing has been used to create a medical implant for treating a life-threatening disease,
Best Places to See'Shooting stars'This Week The annual Perseid meteor shower is typically the most spectacular"shooting star"display for people in the Northern hemisphere,
taking them out briefly to be put on display or for study. However for facilities in the developing world this can be a problem as the energy needed to power dehumidifiers
The fascinating part is that each tablet is produced using a layering technique similar to now common 3d printing.
The developers also plan for the device to display text messages and other notifications, as well as one day even pair up with external devices like public cash machines and information displays to offer Braille capability just about anywhere e
#Use of Ultrasound to Promote Faster Healing of Wounds Sometimes discoveries in science are not about the development of new medical devices or drugs,
This may allow clinicians to quickly screen patients for sepsis and begin antibiotic treatment a full day earlier than is now typically possible c
#3d Tissue Printing Using a DNA Guidance System Researchers at UCSF have developed a method called DNA Programmed Assembly of Cells (DPAC) that brings us one step closer to being able to print fully functional living organs.
DNA-Guided 3-D Printing of Human Tissue is Unveile s
#Brain-Machine Interface Learns to Control Robot Arm Based on User Error Brain signals Brain-machine interfaces (BMIS) restore
For example, if a display item has embedded an LED light pulsing a signal at a specific frequency,
At the macroscale, among other applications, invisibility cloaks could prove useful for 3d displays i
and aid research to manufacture advanced technologies such as quantum computers and ultra-high-resolution displays. The device, fabricated at Purdue University's Birck Nanotechnology Center, uses a cylindrical gold"nanoantenna"with a diameter of 320 nanometers,
ultra-resolution"opto#uidic"displays; and plasmonic circuitry for quantum logic units. The nanotweezer might be used to create devices containing nanodiamond particles
The system also makes it possible to create patterns to project images, potentially for displays with ultra-fine resolution.
while a first pulse excites the sample under study, a second pulse monitors the change in the sample.
high-performance electronics and new 3-D printing technologies,"says Benjamin J. Leever, Ph d, . who is at the Air force Research Laboratory at Wright-Patterson Air force base."
The researchers also are developing the same approach to monitor pilots'health. This involves a biosensor system that can measure heartbeat,
This is a crucial step in creating a new generation of foldable electronics-think a flat-screen television that can be rolled up for easy portability-and implantable medical devices.
"If we can use SPRNT to screen for drugs that specifically disrupt the functioning of these proteins,
potentially outperforming traditional monitoring tools such as cardiac event monitors. The researchers published a paper on their patent-pending process in Advanced Materials on Sept. 23.
which is similar in scope to 3-D printing but different in that material is removed instead of added.
"We are trying to add more types of sensors including blood pressure and oxygen saturation monitors to the low-cost patch."
They are expected also to be used for precise color matching in light-emitting devices and displays,
These attributes should lead to new LEDS and display devices not only with precisely matched colors--better color accuracy and brightness--but also with improved performance lifetime and improved ease of manufacturing."
"QDS are already in use in display devices (e g. Amazon Kindle and a new Samsung TV
which was made with a 3d printer, has been tested successfully on rodents. Discussions are now under way for tests to be carried out at the University Hospital of Lausanne (CHUV.
which was made with a 3d printer, has been tested successfully on rodents. Discussions are now under way for tests to be carried out at the University Hospital of Lausanne (CHUV.
This new material-of-many-colors offers intriguing possibilities for an entirely new class of display technologies, color-shifting camouflage,
and beetles to create a particularly iridescent display of color. Controlling light with structures rather than traditional optics is not new.
"For consumers, this chameleon material could be used in a new class of display technologies, adding brilliant color presentations to outdoor entertainment venues.
#3d printer for small molecules opens access to customized chemistry Howard Hughes Medical Institute scientists have simplified the chemical synthesis of small molecules,
he says. 3d printer for molecules could allow us to harness all the creativity, innovation, and outside-the-box thinking that comes
#Revolutionary 3-D printing technology uses continuous liquid interface production (w/video) A 3d printing technology developed by Silicon valley startup,
representing a fundamentally new approach to 3d printing. The technology, to appear as the cover article in the March 20 print issue of Science("Continuous liquid interface production of 3d objects),
creating the first 3d printing process that uses tunable photochemistry instead of the layer-by-layer approach that has defined the technology for decades.
"By rethinking the whole approach to 3d printing, and the chemistry and physics behind the process, we have developed a new technology that can create parts radically faster than traditional technologies by essentially'growing'them in a pool of liquid,
and use it to light up a small LCD display. American Chemical Society) Sang-Woo Kim
Currently, colors on computer and iphone screens come from dye materials pre-placed on the pixels.
The new technology may hold promise for many applications such as for jewelry, automotive interior trim, aviation, signage, colored keypads, electronics and wearable displays s
#Switchable adhesion principle enables damage-free handling of sensitive devices even in vacuum Components with highly sensitive surfaces are used in automotive, semiconductor and display technologies as well as for complex optical lens systems.
However, a quantum computer displays its talents only for such special tasks: For normal types of basic computations, it is pitifully slow w
hile 3d printing is considered an innovative manufacturing technology, it cannot be used for mass-production of microscopic products.
"Considering that it could potentially be necessary to fabricate millions of FETS for display applications,
The same bonding that makes the molecules soluble for printing fabrication processes also leaves them prone to low melting points,
Today the most commercially successful organic electronic devices are OLEDS (organic light emitting diodes) found in smart phone displays.
"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.
and, with the help of STEVE, she/he can discover its interior components, such as nucleus and organelles, on any screen and in a limitless amount of colors.
a full 3d image of the cell is displayed on the computer screen. Nanolives technology was published in Nature Photonics in 2013("Marker-free phase nanoscopy),
"Bimetallic lanthanide complexes that display a ratiometric response to oxygen concentration"in the periodical Chemical sciences and"Spectrally resolved confocal microscopy using lanthanide centred near-IR emission"in Chemical Communications.
#Using lasers to tailor the properties of graphene Carbon nanomaterials display extraordinary physical properties, outstanding among any other substance available,
They then used electrohydrodynamic jet (e-jet) printing technology to precisely print the QD-embedded polymers onto photonic crystal structures.
and more efficient displays. ince screens consume large amounts of energy in devices like laptops, phones,
because the display would only draw half as much power as conventional displays. To demonstrate the technology,
rather than just relying on traditional chemical screens, says Hubbard, an assistant professor of pharmacology in the University of Albertas Faculty of medicine & Dentistry.
#A new material for transparent electronics he performance of solar cells, flat panel displays, and other electronics are limited by today's materials.
The development of high-performance transparent conducting oxides (TCOS) is critical to many technologies ranging from flat panel displays to solar cells.
and their small footprint offers large storage capacity all these attributes make them well suited to new data storage applications or high-resolution displays.
or in displays with resolutions that have thus far been hard to attain.""This makes possible displays along the lines of the Kindle reader with a pixel size that is thousand times smaller and a much faster response time,
"the scientist explains s
#New research could help build computers from DNA Scientists have found a way to'switch'the structure of DNA using copper salts
#Turning clothing into information displays Researchers from Holst Centre (set up by TNO and imec), imec and CMST,
imec associated lab at Ghent University, have demonstrated the world first stretchable and conformable thin-film transistor (TFT) driven LED display laminated into textiles.
This paves the way to wearable displays in clothing providing users with feedback. Wearable devices such as healthcare monitors and activity trackers are now a part of everyday life for many people.
Today wearables are separate devices that users must remember to wear. The next step forward will be to integrate these devices into our clothing.
A key step towards realizing wearable devices in clothing is creating displays that can be integrated into textiles to allow interaction with the wearer. earable devices allow people to monitor their fitness
The conformable display is very thin and mechanically stretchable. A fine-grain version of the proven meander interconnect technology was developed by the CMST lab at Ghent University
and Holst Centre to link standard (rigid) LEDS into a flexible and stretchable display. The LED displays are fabricated on a polyimide substrate
and encapsulated in rubber, allowing the displays to be laminated in to textiles that can be washed.
Importantly, the technology uses fabrication steps that are known to the manufacturing industry enabling rapid industrialization.
Following an initial demonstration at the Society for Information Display Display Week in San jose, USA earlier this year, Holst Centre has presented the next generation of the display at the International Meeting on Information Display
These second-generation displays offer higher pitch and increased, average brightness. The presentation will feature a 32x32 pixel demonstrator with a resolution of 13 pixels per inch (ppi) and average brightness above 200 candelas per square meter (cd/m2.
"could lead to ultracompact optical systems such as advanced microscopes, displays, sensors, and cameras that can be mass-produced using the same photolithography techniques used to manufacture computer microchips."
Manipulating the polarization of light is essential for the operation of advanced microscopes, cameras, and displays;
invisibility cloaks could prove useful for 3d displays s
#Physicists discover spiral vortex patterns from electron waves In their new study("Electron Vortices in Photoionization by Circularly Polarized Attosecond Pulses),
Advanced 3d printing methods may now be the solution. This is a 3-D printed nerve regeneration pathway implanted in a rat helped to improve walking in 10 to 12 weeks after implantation.
and 3d printing techniques to create a custom silicone guide implanted with biochemical cues to help nerve regeneration.
custom-built 3d printer to print a guide for regeneration. Incorporated into the guide were printed 3d chemical cues to promote both motor and sensory nerve regeneration.
"This represents an important proof of concept of the 3d printing of custom nerve guides for the regeneration of complex nerve injuries,
and printer right at the hospital to create custom nerve guides right on site to restore nerve function."
#New frontiers in 3d printing Three dimensional printing is revolutionizing the production of new devices and structures, including soft robots,
Now, breaching the next frontier in 3d printing, Jennifer A. Lewis, Sc. D.,has designed new systems to actively mix
for the first time, allow for the simultaneous control of composition and geometry during printing. Lewis is a Core Faculty member at the Wyss Institute for Biologically Inspired Engineering at Harvard university and the Hansjörg Wyss Professor of Biologically Inspired Engineering at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS.
The goal of integrating different material and structural properties within printed objects has demanded the invention of new, flexible printing platforms.
a 3d printer would need to seamlessly transition from the flexible material that moves with the wearer joints to the rigid material that holds the electronic components.
yet could not be integrated seamlessly into a single unitary object with 3d printing in the past, "said Wyss Institute Founding Director Donald Ingber, M d.,Ph d,
"Her creativity and leadership have transformed already the realm of 3d printing, and once again, she and her team have opened another new path for this emerging field to explore."
these active mixing and switching printheads provide an important advance for multimaterial 3d printing, "said Lewis."They allow one to programmably control both materials composition and structure at the microscale,
This is a crucial step in creating a new generation of foldable electronics-think a flat-screen television that can be rolled up for easy portability-and implantable medical devices.
including blood vessels and even the heart. particularly far-reaching example would be the ability to guide the vascularization of artificial tissue by 3d printing capsules alongside stem cells,
With low-cost fabrication, long-term stability and a wide palette of colors, they have become a building blocks of the display technology,
Unlike most 3-D printing, this technique does not require photoinitiators, compounds that promote photoreactivity
"If we can use SPRNT to screen for drugs that specifically disrupt the functioning of these proteins,
potentially outperforming traditional monitoring tools such as cardiac event monitors. The researchers published a paper on their patent-pending process in Advanced Materials.
which is similar in scope to 3-D printing but different in that material is removed instead of added.
"We are trying to add more types of sensors including blood pressure and oxygen saturation monitors to the low-cost patch
They are expected also to be used for precise color matching in light-emitting devices and displays,
These attributes should lead to new LEDS and display devices not only with precisely matched colors--better color accuracy and brightness--but also with improved performance lifetime and improved ease of manufacturing."
"QDS are already in use in display devices (e g. Amazon Kindle and a new Samsung TV
next-generation health monitoring devices such as electronic stick-on tattoos (see for instance"wearing single-walled carbon nanotube electronics on your skin",a"temporary tattoo to monitor glucose levels"or"graphene nanosensor tattoo
on teeth monitors bacteria in your mouth")."In order for these wearable sensor devices to become fully integrated into sophisticated monitoring systems,
and avenues for commercialization, including non-fouling medical tools and devices, such as implants and scalpels, nozzles for 3d printing and, potentially, larger-scale applications for buildings and marine vessels.
Another avenue for application is functional 3d printing and microarray devices, especially in printing highly viscous and sticky biological and polymeric materials where friction and contamination are major obstacles.
U s. Navy spends tens of millions of dollars each year dealing with the ramifications of biofouling on hulls.
#Researchers create transplantation model for 3-D printed constructs Using sugar, silicone and a 3-D printer,
Bioengineering graduate student Samantha Paulsen and research technician Anderson Ta worked together to develop a proof-of-concept construct--a small silicone gel about the size of a small candy gummy bear--using 3-D printing.
Using an open-source 3-D printer that lays down individual filaments of sugar glass one layer at a time
The bio-ink is then optimised for 3d printing, and developed for use in a standard cell culturing facility without the need for expensive bioprinting equipment.
and remain in their designated layer. his study highlights the importance of integrating advances in 3d printing,
Professor Wallace said. his paves the way for the use of more sophisticated printers to create structures with much finer resolution. 3d printing of layered brain-like structures using peptide modified gellan gum substrates
The facile ability to form discrete cell-containing layers validates the application of this novel printing technique to form complex, layered and viable 3d cell structures.
-based screen in which the activity of each gene under investigation was knocked down, or silenced, to examine its effects on mitochondrial calcium levels.
and represent it on a computer screen. In this article, Inserm researchers, using MRI, have succeeded in detecting natural shear waves in the brain using computational techniques borrowed from seismologists
#They are now 3d printing drugs THE Food and Drug Administration has approved the first prescription drug made through 3d printing:
a dissolvable tablet that treats seizures. Aprecia Pharmaceuticals said Monday the FDA approved its drug Spritam for adults
The tablet is manufactured through a layered process via 3d printing and dissolves when taken with liquid. The Ohio-based company says its printing system can package potent drug doses of up to 1, 000 milligrams into individual tablets.
It expects to launch Spritam in the first quarter of 2016. The FDA has approved previously medical devices including prosthetics made with 3d printing.
An agency spokeswoman confirmed the new drug is the first prescription tablet approved that uses the process.
Doctors are increasingly turning to 3d printing to create customised implants for patients with rare conditions
battery and display technology are all going to receive big overhauls. What likely to be includedthe big advancement with the iphone 6s we are likely to see is Force Touch screen technology reports Business Insider.
Apple debuted this new type of display with the Apple Watch and new Macbook earlier this year,
where the device can detect different pressures used when touching the screen. For example, when using the Apple Watch,
you can press down with slightly more force to change the watch face. Even though it hasn been announced yet,
While Apple fiddling around with the screen technology, it also expected that both models will receive a higher screen resolution for a clearer display.
It also rumoured that they will finally have a sapphire glass screen which will help keep it protected from scratches and shattering when dropped.
Apple has been putting a lot of emphasis on the iphone as a photography device, and that looking to take a step even further with the iphone 6s.
so don expect any new screen sizes or a new design. At best, they might introduce a new colour,
and shows you when the Google magic is working for you, even on the tiniest screens,
Google also invented a new typeface called roduct Sansthat is meant to resemble the simple printing in a grade-school book.
The overhaul also will change the appearance of the letter that Google uses as its shorthand logo on the smaller screens of smartphones and other mobile devices.
People in intensive care are hooked already up to a host of monitors, which together keep track of numerous parameters including heart rate and levels of glucose and oxygen in the blood.
People in intensive care are hooked already up to a host of monitors which keep track of things such as heart rate and levels of glucose and oxygen in the blood.
#Gel scaffold paves way for 3d printing of biological organs To improve 3d printing, simply add gel.
A fresh technique uses one to support complex shapes that would fall apart under their own weight in normal 3d printing.
It works like a scaffold, allowing the printing of intricate patterns that would collapse without its support such as nested Russian-doll-like structures and thin
A hitch in using traditional 3d printing to create the kinds of structure found in our organs is that they collapse long before being finished.
Printing into supportive gel gets around that challenge preventing the creations from sagging or buckling before they solidify.
The use of 3d printing to make working tissue and organs is still a long way off,
and diagnosis. Catheline hopes his technique will eventually help doctors diagnose diseases and monitor the success of their treatment.
#Your Pill Is Printing: FDA Approves First 3-D-Printed Drug In a first, the Food and Drug Administration has given approval to a drug that is produced on a 3-D printer.
The pill, produced by Aprecia Pharmaceuticals, treats seizures. It's expected to hit the market in the first quarter of 2016.
"The new tablets are manufactured using 3-D printing, which creates objects by very precisely spewing out one layer of a substance on top of another. 3-D printing is being used to make all sorts of things these days."
"The FDA had approved previously medical devices made with 3-D printing. The company that makes Spritam says the 3-D-printed version of the drug allows it to dissolve more quickly,
which makes it easier to swallow.""Another benefit of the process, says Aprecia, the drug's maker, is that it allows a high drug load up to 1,
Aprecia says it based its printing platform on technology that originated at the Massachusetts institute of technology o
They manufactured the implant with a $1. 3 million metal printer at a government-run lab. The printer uses an electron beam to melt titanium powder,
The printer then paints each layer of the device one on top of another.""As each layer is fused,
As metallic printers become more common, she wrote, so will printed 3-D implants. Surgeons typically use a combination of flat plates,
The 3-D printing technology allowed the surgeons to create an implant that"fitted like glove"in the man's chest, Dr. Jose Aranda
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