БЛОГ

Archive for the ‘electronics’ category: Page 89

Feb 3, 2016

Hisense to Add HDR, Quantum Dot Technologies to 2016 UHD TVs

Posted by in categories: electronics, quantum physics

Q-Dots in your TV in 2016.


Hisense-H10.jpgHisense plans to introduce a total of 22 TVs to the U.S. market in 2016, including 720p, 1080p, and UHD models. All of Hisense’s 2016 UHD TVs (eight models total) will support High Dynamic Range, and screen sizes will range from 43 to 65 inches. The flagship 65-inch H10 (shown here) will feature both HDR and quantum dot technologies and have a full-array LED backlighting with local dimming. The 65H10C will be available in the second half of 2016 for $2,799.99

From Hisense Dedicated to continually pushing the envelope with innovative design, technology and value to the consumer, the number-three TV manufacturer globally is looking to achieve the same position within the U.S. with its groundbreaking, affordable, high-quality televisions.

Continue reading “Hisense to Add HDR, Quantum Dot Technologies to 2016 UHD TVs” »

Feb 3, 2016

Quantum gas, liquid and crystal all-in-one

Posted by in categories: electronics, materials, neuroscience, particle physics, quantum physics

I don’t claim to be the expert on all things Quantum by no stretch; however, this is an amazing discovery and huge step forward for Quantum.

Quantum gas and liquid/ ferrofluid (quantum fluid made of tiny magnets). Now there’s a concept. Q-Dots as ferrofluid flowing through out your system (which is already comprised of about 72% H2O; think about how liquid Q-Dots can be easily absorb as a liquid and given your brain, heart, etc. run on electro charges and sensors; it could definitely open the discussion why even bother with nuero implants when Q-ferrofluid could actually be absorbed and manipulated to target the right areas for fighting diseases or improving brain functions.


The world of quantum mechanics happens only in small scales around a few nanometers. In this nanoworld, particles can behave like waves, and vice versa and have only some probability to be in a particular region. These effects can be directly observed in ultracold dilute gases. For this purpose thousands or a million atoms are cooled down to a few billionth of a degree above absolute zero. At such low temperatures particles become indistinguishable und unite collecitvely to a single giant matter wave called Bose-Einstein condensate which has astonishing properties. The matter wave flows as quantum fluid practically without inner friction, thus it is namedsuperfluid.

Researchers around Tilman Pfau at the Center for Integrated Quantum Science and Technology IQST in Stuttgart (Germany) created such a quantum fluid made of tiny magnets – that are atoms of the most magnetic element dysprosium. They call it “quantum ferrofluid” since it is superfluid and has magnetic properties similar to classical ferrofluids. Ferrofluids consist of ferromagnetic nanoparticles dissolved in oil or water. When a strong magnetic field is applied perpendicular to the surface of the ferrofluid it undergoes a so-called Rosensweig instability. The surface is no longer smooth like normal fluids, but it generates a regular thorny surface resembling a hedgehog. From the point view of the tiny magnets in a ferrofluid, every south- and northpole attract each other. Therefore, it is energetically favourable to be on top of each other along the field direction, so the fluid grows peaks out of the smooth surface.

Continue reading “Quantum gas, liquid and crystal all-in-one” »

Feb 2, 2016

Hexagon Resources to access high-purity graphite markets in 2017

Posted by in categories: electronics, materials, neuroscience

Graphene is coming to the market in Q3 2017 by Hexagon Resources. What is also important about this is not only what graphene does for batteries; is 1 day ago when researchers in Italy released their findings in how graphene can be implanted in the brain without damaging brain cells. Therefore, there is huge potential for grapheme beyond batteries and electronics.


Hexagon Resources is on track for first production next year at its McIntosh project in Western Australia, where the country’s biggest flake graphite resource is already demonstrating huge potential for meeting high-value markets and growing significantly in size.

Read more

Feb 2, 2016

Nanotechnology World Association

Posted by in categories: computing, electronics, nanotechnology, neuroscience, particle physics

UT RESEARCHERS DEVELOP ®EVOLUTIONARY CIRCUITS

Researchers of the MESA+ Institute for Nanotechnology and the CTIT Institute for ICT Research at the University of Twente in The Netherlands have demonstrated working electronic circuits that have been produced in a radically new way, using methods that resemble Darwinian evolution. The size of these circuits is comparable to the size of their conventional counterparts, but they are much closer to natural networks like the human brain. The findings promise a new generation of powerful, energy-efficient electronics, and have been published in the leading British journal Nature Nanotechnology.

One of the greatest successes of the 20th century has been the development of digital computers. During the last decades these computers have become more and more powerful by integrating ever smaller components on silicon chips. However, it is becoming increasingly hard and extremely expensive to continue this miniaturisation. Current transistors consist of only a handful of atoms. It is a major challenge to produce chips in which the millions of transistors have the same characteristics, and thus to make the chips operate properly. Another drawback is that their energy consumption is reaching unacceptable levels. It is obvious that one has to look for alternative directions, and it is interesting to see what we can learn from nature. Natural evolution has led to powerful ‘computers’ like the human brain, which can solve complex problems in an energy-efficient way. Nature exploits complex networks that can execute many tasks in parallel.

Read more

Feb 1, 2016

New invention revolutionizes heat transport (w/video)

Posted by in categories: computing, electronics, quantum physics, transportation

Another major leap forward in Quantum; researchers have been able to transport heat consistently ten thousand times further than ever before. This will enable Quantum technology to be leveraged in across multiple areas of manufacturing (clothing, etc.), energy, and electronics due to its heat conductive properties.

Heat conduction is a fundamental physical phenomenon utilized, for example, in clothing, housing, car industry, and electronics. Thus our day-to-day life is inevitably affected by major shocks in this field. The research group, led by quantum physicist Mikko Möttönen has now made one of these groundbreaking discoveries. This new invention revolutionizes quantum-limited heat conduction which means as efficient heat transport as possible from point A to point B. This is great news especially for the developers of quantum computers.

Continue reading “New invention revolutionizes heat transport (w/video)” »

Feb 1, 2016

Apple’s Working On Super Secretive Virtual Reality Technology

Posted by in categories: electronics, virtual reality

Apple’s quietly building a small army of virtual reality developers, and has been working on a headset for several months, but it’s been typically vague about its plans with the public. And on Friday, company representatives confirmed it’s made yet another another acquisition.

“Apple buys smaller technology companies from time to time, and we generally do not discuss our purpose or plans,” Apple told Tim Bradshaw of the Financial Times, confirming its buy of Flyby Media, a company that “is dedicated to building new technology that can elevate, rather than replace, our real-world experiences.”

Continue reading “Apple’s Working On Super Secretive Virtual Reality Technology” »

Jan 29, 2016

This may look like an ordinary coaxial data cable

Posted by in categories: electronics, transportation

But a carbon nanotube coating (shown in clear jacket) replaces the tin-coated copper braid that serves as the outer conductor, ordinarily the heaviest component. Created by researchers at Rice University, the coating was tested by a collaborative group including NIST, which has more than 10 years of expertise in characterizing and measuring nanotu…bes. The coating, only up to 90 microns (millionths of a meter) in thickness, resulted in a total cable mass reduction of 50 percent (useful for lowering the weight of electronics in aerospace vehicles) and handled 10,000 bending cycles without affecting performance. And even though the coating is microscopically thin, the cable transmitted data with a comparable ability to ordinary cables, due to the nanotubes’ favorable electrical properties.

Credit: J. Fitlow/Rice University See More

Read more

Jan 27, 2016

What new wearable sensors can reveal from perspiration

Posted by in categories: electronics, health, mobile phones, wearables

When engineers at the University of California, Berkeley, say they are going to make you sweat, it is all in the name of science. Specifically, it is for a flexible sensor system that can measure metabolites and electrolytes in sweat, calibrate the data based upon skin temperature and sync the results in real time to a smartphone.

While health monitors have exploded onto the consumer electronics scene over the past decade, researchers say this device, reported in the Jan. 28 issue of the journal Nature (“Fully integrated wearable sensor arrays for multiplexed in situ perspiration analysis”), is the first fully integrated electronic system that can provide continuous, non-invasive monitoring of multiple biochemicals in sweat.

wristband sweat sensor

Continue reading “What new wearable sensors can reveal from perspiration” »

Jan 27, 2016

New record in nanoelectronics at ultralow temperatures

Posted by in categories: computing, electronics, quantum physics

Another Quantum Breakthrough through ultra- low temp nanoelectronics- Sub-millikelvin nanoelectronic circuits and is another step on the way to develop new quantum technologies including quantum computers and sensors.


The first ever measurement of the temperature of electrons in a nanoelectronic device a few thousandths of a degree above absolute zero was demonstrated in a joint research project performed by Lancaster University, VTT Technical Research Centre of Finland Ltd, and Aivon Ltd.

The team managed to make the electrons in a circuit on a silicon chip colder than had previously been achieved.

Continue reading “New record in nanoelectronics at ultralow temperatures” »

Jan 24, 2016

LG OLED TV : You Dream We Display

Posted by in categories: electronics, futurism

https://www.youtube.com/watch?v=VenG8TF90yA&feature=youtu.be

Experience the whole new future created by OLED and see how OLED will bring significant change to our life.

For more information visit▶
LG OLED TV UK URL: http://www.lg.com/uk/lgoled/

Read more

Page 89 of 105First8687888990919293Last