Wednesday, 9 December 2015

New Nanoparticle Steals Light, Beams It Stronger

Nanoparticle

New Nanoparticle - Layers of Unusual Materials


New type of ceramic nanoparticle has been developed by physicist, which is said to be making it easier to track drugs in the body, screen counterfeit money as well as boost the ability of solar cells to capture more energy. The particle which is onion-like is about 50 nanometres wide that is around 1000 times smaller than a human hair or the size of a virus.

Made from layers of unusual materials, its coating is of organic dye, a neodymium shell with a core made of ytterbium and thulium. Combined together, the layers tend to convert invisible near infrared light to blue and ultraviolet – UV light with high proficiency. The capability of changing one type of light to another is known as `up-conversion’ wherein this particle has the potential to do it 100 times more competently than the other particles.

The same is important since such particle can improve many prevailing technologies that tend to utilise dyes, biomarkers or fluorescent tracers. According to Tymish Y. Ohulchanskyy, deputy director University at Buffalo’s Institute, for Lasers, Photonics and Biophotonics – ILPB, he states that the particle for instance, could be utilised in special inks which could be invisible to the human eye, but tend to glow blue when it is hit by a low-energy laser pulse.

Develops Its Glow during Up-Conversion Procedure


Ohulchanskyy is of the opinion that the particles can be used in ensuring that expensive drugs reach their mark in the body. Presently the same is being done by using bio-imaging, which is a technique that labels cells with markers that shine under ultraviolet light shining from specialized imagers.

However, fluorescent markers could throw the incoming light from the imaging device but the latest nanoparticle does not do so. On the contrary it develops its own glow during the up-conversion procedure.

Ohulchanskyy comments that this feature is such which none of the other materials have displayed. Researchers state that the particle’s dye performs as an antenna, collecting photons from low-energy light sources. Shell of the neodymium handovers the energy to the core, wherein the ytterbium as well as the thulium accumulates the energy of many photons at once, emitting it as a single photon of blue and UV light.

Design Helpful in Overcoming Long-Standing Obstacles


Professor of chemistry at the University of Maryland as well as an expert in nanoparticles, Zhihong Nie, stated that he `was impressed with the new three layer particle. It is an outstanding paper in general. He further added that it is interesting to look at the energy cascade phenomenon and it should not be hard to replicate. He is of the belief that they could be able to scale it up’.

 Guanying Chen, professor of chemistry at Harbin Institute of Technology and ILPB research associate, has commented saying that `by creating special layers which helps in transferring energy efficiently from the surface of the particle to the core, which emits blue and UV light, the design helps in overcoming some of the long-standing obstacles which earlier technologies faced.

The research had been published in the journal – NanoLetters. It was led by researchers at SUNY-Buffalo, the Harbin Institute of Technology in China together with contributions from the Royal Institute of Technology in Sweden, Tomsk State University in Russia and the University of Massachusetts Medical School.

Lenovo's Zuk Z1 is a Cheap Smartphone with More Battery than Bite

Zuk Z1

The Zuk Z1 – First Smartphone From Lenovo’s Zuk Sub-Brand


The Zuk Z1 is the first smartphone from Lenovo’s Zuk sub-brand which joins the growing list of cheap Android handsets such as the Alcatel OneTouch Idol 3 and Asus ZenFone 2. The Zuk Z1 had been unveiled in August in China and though there was no planned date of release for US, it is available now in Europe for €319.99.

One could get a 5.5 inch full HD display, 3GB of RAM, 64GB internal storage, 13-megapixel camera with dual SIM support, fingerprint scanner as well as an equally dated Snapdragon 801 processor with that price. This is because like the powerful though cheap Android smartphone, the Zuk Z1 is not much appealing with regards to the design.

The metal chamfered edges are attractively designed and the plastic antenna stripes towards the top and bottom of the phone are somewhat familiar. The Z1 tends to have a rounded bubbly feel of an older phone for instance like a Samsung Galaxy Note 2 of 2012. The sleek plastic back tends to swell slightly as though the battery within seems to be inflating and though not uncomfortable to hold, it lacks the refinement one tends to get from the latest Galaxy and iPhone devices.

Software – Very Appealing


The most appealing aspect of the Z1 is its software which comes loaded with one of Android’s popular variants, Cyanogen OS, meaning that individuals could get more granular control over their device than Google’s regular mobile operating system. One could tweak anything from the shortcuts on the notification drawer, to check for individual apps to hardware button towards the bottom of the device.

Besides this it also bundled with the software like Truecaller, a caller ID service which besides other things, tends to block spam calls, which is useful and can be uninstalled if not needed. The performance of Z1 is perfect for daily usage, swiping around the home screen scrolling through the apps, texting friends and much more.

Though the Snapdragon 2.5 GHz801 processor does not keep up in head-to-head use with the new chips from 2015, there seems to be slight and infrequent impediments at the time of gaming. The 13-megapixel camera is a bit of a disappointment and attempting to capture moving subjects seems difficult as well as well- illuminated indoor shots are not up to the mark. Besides this, Cyanogen OS’s camera app is particularly poorly designed with no easy access to pictures taken.

Z1 – A Capable Phone


The rest of the hardware seems solid though there are some more limitations. For instance the addition of a USB Type-C port seems that one could use reversible cables which tend to work either way up though it makes the old microUSB chargers useless.

The phone does not come bundled with one Type-C cable. Since there is no microSD port or a removable battery, the 64GB storage and 4,100 mAh battery of Z1 would be adequate to satisfy most of the users. The fingerprint scanner seems good though there were a few missed scans. The Z1 overall seems to be a very capable phone.

 It is not a flagship quality, but it is definitely no ship. The Z1 though, with a generic and somewhat swollen design of the handset does not seem right for all hands, its price at least would be suitable for several users.

Saturday, 5 December 2015

Samsung Galaxy S7


Samsung
Samsung Galaxy S7 is expected to debut in less than three months and rumor mills are working overtime to present a final picture of the device specs and features. Samsung is looking forward to improve the popularity of its S series after the lukewarm response to the Galaxy S6. Furthermore launching the S7 during the first quarter of the year will help in making huge sales and almost no threat from the next iPhone. Here is a list of the Samsung Galaxy S7 specs and features, which have emerged in the recent past.

Two designs to debut together

Samsung has established a dual lunch model for itself by the releasing of Galaxy S6 and S6 Edge variant a while back. Similarly it is being expected that Samsung will unveil two designs and models as Galaxy S7 and Galaxy S7 Edge featuring a curved screen. Samsung Edge will always feature its awe-aspiring curved display design, which has been loved both by the consumers and critics alike.

Qualcomm processor expected to make a comeback

Samsung and Qualcomm relations soured in the recent past and Samsung even went ahead to launch the high end Galaxy S6 variants featuring it own home grown Exynos processors. However Samsung will be using both the Qualcomm Snapdragon 820 chipset and its Exynos 8890 processor for the Galaxy S7. Snapdragon will be used in the S7 devices for the India while Snapdragon 820 will be used in the devices manufactured for the China, US and other markets.

MicroSD slot to return in Galaxy S series

Samsung has to bear a huge pressure from the consumers with its strategy to do away with the microSD card slots. There are some credible rumors which points that Samsung is all set to reintroduce the microSD card slots in the Galaxy S7. However, it has not been whether Samsung has ditched the micoSD card slots due to price concerns or technical reasons earlier.

Galaxy S7 Force Touch technology

Samsung has also filed a patent for its own exclusive 3D touch technology. Samsung 3D touch technology is described as a system wherein different voltages will help in getting different options to get selected. For example, a hard press will result in capital letter and a softer press will help in getting lowercase letters while typing.

Better and advanced camera hardware

Samsung Galaxy S series comes under the premium and high end smartphone segment wherein it is necessary to offers top class camera capabilities in the phone. Samsung is looking forward to heighten its upcoming Galaxy S7 camera capabilities by getting hand on the 23MP IMX300 camera, which was used by the Sony in its Xperia Z5 flagship.

Samsung Galaxy S7 to release in February

Samsung has launched the Galaxy S6 at MCW 2015 and Galaxy S5 at MCW 2014. Therefore, it can be easily said that Galaxy S7 will make its debut at MCW 2016, which takes place at the end of the February. It is widely expected that Samsung Galaxy S7 will each to the stores by April first week after the official release in the February.

Blue Origin’s Surprise Rocket Launch and Safe Landing

Rocket

Blue Origin Launched Un-crewed Rocket in Space & Back on Earth


The Amazon founder Jeff Bezos has announced that his rocket company Blue Origin has launched an un-crewed rocket to the edge of the space prior to landing it back on Earth. The rocket had performed a surprising and a historic rocket launch and landing from their facility in Van Horn, Texas. A video had revealed how the launch vehicle had reached the edge of space before it returned back to Earth in a controlled landing.

In a statement, Bezos had mentioned that `rockets have always been expendable but not anymore. Safely tucked away at their launch site in west Texas is the rarest of beast, a used rocket. Blue Origin’s reusable New Shepard space vehicle had flown a flawless mission, soaring to 329,839 feet and returned through 119-mph high altitude crosswinds making a gentle controlled landing just four and a half feet from the centre of the pad.

Fuel reuse is a game changer and we can’t wait to fuel up and fly again’. The launch vehicle and the firm’s New Shepard capsule had reached an altitude of around 100 kilometres before separating. It had deployed its parachutes, drifting to the rocket while the rocket utilised controlled firings to descend before deploying its landing leg for a successful return.

Reusable Rockets – Important Development for Space Travel


The rocket had travelled significantly, to a height which was officially beyond the boundary space of 100 kilometres high known as the Karman line, making it the first rocket to land successfully after journeying to space.

This is the second surprise test of Blue Origin’s New Shepard capsule and launch vehicle, this year after a launch in April and due to loss of hydraulic pressure it meant that Blue Origin would not recover the rocket for that flight.

This competition has placed the firm in direct competition with SpaceX that had conducted successful ground landings from altitude of 1 kilometre and is now making efforts in landing its Falcon 9 rocket on barges in the sea once they tend to deliver cargo to the International Space Station. Reusable rockets have been viewed as an important development for space travel and it is said that reusable rockets could be bringing down the cost of space flight with the provision of new opportunities.

Blue Origin – Opened Important Space Tourism Avenues


Presently all rockets are expendable which means that new one need to be built for every launch. SpaceX and Blue Origin are making attempt to develop reusable rockets so that the same equipment could be utilised again and again thereby decreasing the cost of going to space. This has opened up important space tourism avenues for Blue Origin.

As for SpaceX, they are more dedicated in getting humans and equipment in orbit. So far, Blue Origin has launched its capsules without a crew, however in the video of the launch, it shows a reproduction of what paying passengers would one day tend to enjoy. The vehicle tends to carry six people who would enjoy four minutes of weightlessness and sight of the Earth from space. Bezos comments that they `are building Blue Origin to seed an enduring human presence in space in order to move beyond this blue planet which is the origin of all that we know’.

Graphene Microphone Could Pick Up Sounds beyond Human Hearing

Graphene

Graphene Designed Microphone – Amazing Detection Quality


Latest designed microphone of graphene which is 32 times more sensitive than conventional microphones have been invented by researchers which has amazing sound detection qualities. Graphene which is one of the thinnest, lightest, strongest as well as the most conductive materials ever known comprises of a single layer of carbon atoms that are arranged in a honeycomb structure.

Its adaptability enables it to support possibly a wide variety of application in electronics which include flexible displays, wearable and other next-generation electronic devices. Having the strength of some of the present day best microphones, graphene based devices has the potential to detect a range of audible frequencies. As per a paper published by the University of Belgrade in Serbia in the journal 2D materials, the microphone membrane is said to be built by amassing 60 layers, which is a single layer of carbon atoms in hexagonal pattern.

 It substitutes nickel, a traditional material for commercial microphones. Author of the paper, Marko Spasenovic, informed Engineering and Technology magazine that they wanted to show that graphene though a relatively new material has the capability for real world application. Known for its light weight, high mechanical strength as well as flexibility, graphene can be utilised as an acoustic membrane material’.

Development in Infancy Stage


While the development is at its infancy stage, the graphene microphone tends to pick up sounds at 15 decibels level which is higher than the commercial devices at frequencies of up to 11 kHz. A virtual microphone of 300 layers of graphene was then stimulated by the researchers instead of the 60 layered one which they had already built and found that the enhanced version had the potential of picking up sounds at ultrasonic frequencies up to 1 MHz, 50 times greater than the upper limit of human hearing at 20 KHz.

 Due to their research, scientists are of the belief that this is only the beginning for the graphene based microphone. This technology could be utilised to pick up sounds which we presently cannot hear like bats chirping or to converse through materials such as steel that electromagnetic waves are unable to penetrate. Layers of graphene onto nickel foil were grown by the researcher and later the nickel was removed leaving only the graphene behind. Thereafter the graphene sheet was then placed in a conventional microphone where it acted as a diaphragm, a membrane which tends to pick up sound vibrations.

Limiting Aspect of Commercial Graphene Microphone – Cost


Main limiting aspect in the creation of a commercial graphene microphone is the cost and seems to be excessively expensive to manufacture large sheets of graphene. Marko Spasenovic has stated that at this stage, there seems to be several hurdles in making cheap graphene and hence the microphone should be considered more of proof of concept and the industry are working hard in improving graphene production. Ultimately we could have better microphones at lower cost.

 The researchers across the globe are presently attempting to bring down the cost of graphene production. At Manchester University, a £61, National Graphene Institute had been opened in March 2015 where the `wonder material’ was initially isolated. There have been over 11,300 graphene related patents, all over the world. Several applications have been defined for a variety of technologies right from super strong bendy mobile phone screens to quicker computer chips as well as broadband and revolutionary and high performance batteries.