#Texas and Oklahoma slammed with historic floods: 5 dead, 12 missing...hundreds of homes destroyed...
They transform food into fuel that allow cells to carry out energy-demanding functions. itochondria play a large role in human health,
and fission to respond to cellular energy demands. By changing their size and connectivity through fusion and fission
#This device brings dead batteries back to life DID you know when a disposable battery stops working,
there is still close to 80 per cent of its power remaining? The team from the Batteroo office in Silicon valley certainly did
and now they have created a new device to ensure batteries are operating to their full capacity.
Known as Batteriser, the device crafted from. 1mm thin stainless-steel slides over a range of battery types
Mr Roohparvar said he hoped the product would shake up the $14 billion disposable battery market. atteroo is the first to unleash existing unused power from a seemingly powerless battery
and by extending battery life by up to eight times, Batteriser pays for itself with the very first purchased pack,
he said. hy throw away perfectly good batteries, or waste money buying new batteries, when we now have a technology that saves money, saves energy,
and can cut the number of batteries that end up in landfills by more than half. Currently the only device of its kind, Batteriser will be available for AA, AAA, C and D-cell batteries,
and will retail at under $us10. 00 for a pack of four sleeves. The product will be available for purchase on Amazon later this year z
#The revolution of military aircraft For anyone with a fascination for flying it is a surreal experience to stand in a hangar with five Bell 407 helicopters and not a single pilot in sight.
Out on the flight line at the Point Mugu United states Naval Air station, north of Los angeles, a ground crew is preparing an unmanned MQ-8c Fire Scout chopper for takeoff,
which modified electrical devices were put in their homes along with a Wi-fi router. Over 24 hours, the devices were powered solely by the router's signal,
The energy of the radio waves the router sent out was converted into direct current voltage with a component called a rectifier,
much as solar panels convert light energy into electrical energy. That voltage was boosted then to a useful level by a DC-DC converter (arxiv. org/abs/1505.06815.
The system powered temperature sensors and battery-less low-resolution cameras, and charged standard batteries. The hard part is getting the router to constantly push out enough energy,
says team member Vamsi Talla from the University of Washington in Seattle. When someone is browsing the web,
the Wi-fi signal is active and can be used to power devices. However, when not browsing the signal goes quiet."
"Removing the need to think about batteries takes away one of the barriers to the exploitation of those technologies,
without breaking the skin, just like the fictional tricorder in Star trek. It works by pulsing energy into a vein in a person's wrist or earlobe.
When the crystals absorb this energy, they warm the surrounding blood plasma, making it bubble. An oscilloscope placed on the skin alongside the laser senses these nanoscale bubbles
battery-powered device the size of a shoebox would house everything associated with the small probe, with no other reagents, facilities or specialist personnel required.
Shining red light on skin or cells in a dish gives an instant energy boost that could help heal wounds,
which turbocharges the chemical reactions that provide a cell's energy. The revelation has come from work led by Andrei Sommer of the University of Ulm in Germany. var ord=window. ord Math. floor (Math. random()*10e12;
The light causes mitochondria, the cell's powerhouses, to produce more ATP, a compound that provides the cell's energy.
Until now, the best explanation was that an important respiration enzyme called cytochrome C is affected by the near-infrared energy,
Some men's sperm do not have enough energy to fertilise an egg in a lab,
#Improved, cheaper hybrid solar cell material created Researchers at Lithuania Kaunas University of Technology (KTU) Organic chemistry department have developed a new semiconductor material,
ffers a much cheaper alternative to those currently used in hybrid solar cells The efficiency of the new semiconductor methoxydiphenylamine-substituted carbazole,
The solar cells containing organic semiconductors created at KTU were constructed and tested by physicists at Lausanne. The tests revealed that the efficiency of the cellsconverting solar energy into electricity was 16.9%.
%Professor Getautis commented, he material created by us is considerably cheaper and the process of its synthesis is complicated less than that of the currently-used analog material.
Also, both materials have a similar efficiency of converting solar energy into electricity. That means that our semiconductors have similar characteristics to the known alternatives
and incorporated into a CH3NH3PBI3 perovskite solar cell, which displayed a power conversion efficiency of 16.91,
Various electro-optical measurements were carried out to characterize the new material. rof Getautis said that the material will be used in the construction of future solar cells:
lmost all solar cells are made from inorganic semiconductors. Hybrid, semi-organic solar cells are still being developed and perfected at the research centers all over the world.
KTU and Swiss Federal Institute of technology Lausanne have registered the invention at the European Patent office. e concluded, n V886,
and solid-state dye-sensitized solar cells. ur paper is among the 5%of most important publications in one of the most influential chemistry journals followed by all undertaking research in the field of chemistry.
In an energy conference in Paris on Tuesday, Shell CEO Ben van Beurden said that a coal-togas switch ensures a sustainable energy system tomorrow.
the computer then uses electromagnetic field to pump the droplets around gates to perform logical operations. The researchers said the droplets in the system can be used to complete any process that a normal electronic computer can.
#Multilayer QD Solar cells Promising for Natcore RED BANK, N. J.,Feb 23, 2015 A new breed of quantum dots (QDS) could enable multilayer solar cells that capture more of the sun energy.
Natcore Technology Inc. said scientists in the laboratories of cofounder Dr. Andrew Barron, who is also a professor at Rice university,
have formed successfully a heterojunction solar cell using germanium QDS on an ordinary n-type silicon wafer. Individual germanium quantum dots were coated with silicon dioxide (silica),
QD solar cells have the potential to capture solar energy more efficiently than other cells available commercially today.
the careful control of their size to absorb energy from a specific spectrum of light.
Tandem solar cells are used in space applications. The major issue preventing their broad use in terrestrial applications has been need the to use exotic semiconducting materials for the upper layers, according to Natcore.
it will open the door to potential ultra-high-efficiency, multijunction solar cells, the company said.
what is essentially the world's thinnest light bulb, "said Columbia University engineering professor James Hone."
This is primarily because light bulb filaments must be extremely hot thousands of degrees Celsius in order to glow in the visible range,
so that less energy is needed to attain temperatures needed for visible light emission, "said Myung-Ho Bae, a senior researcher at the Korea Research Institute of Standards and Science (KRISS)."
"Edison originally used carbon as a filament for his light bulb, and here we are going back to the same element
#A BATTERY MADE FROM RHUBARB (SORT OF) The next step for renewable energy is to figure out how to store all the power we create.
Harvard researchers have used a molecule nearly identical to one in rhubarb to make a battery that can store more energy
or less moneyhan solid-state and traditional flow batteries. e have something that could change the way we deal with electricity,
By 2017, they hope to release a commercial version big enough to hold a day worth of energy from a typical three-kilowatt home rooftop solar array.
Many existing flow batteries use expensive rare earth metals like vanadium. This new battery is modeled on photosynthesis and uses quinones
small molecules that store energy in plants and animals. They cause a beautiful color change from yellow to red-brown during charging,
and are cheap and naturally abundant. Aziz hopes one day to store elec tricity from solar farmsithout depending on scarce, costly materials t
Japanese electronics company Ricoh says the rubber generates electricity while it stretches. When crystalline materials such as quartz and ceramics are stretched or compressed,
they generate an electric charge. That's called piezoelectricity, and it's the same force at work in this rubber--the exact identity
of which remains unknown. The rubber, which could potentially be used to power sensors, is lighter and less fragile than other piezoelectrics
while still maintaining efficiency. Ricoh claims it has conducted already everal million periodsof extensive testing on the rubber,
a concept that typically refers to the connection of a wide array of everyday devices--including thermostats, light bulbs,
For years after the operation he wore a Proprio Foot, a prosthetic with a motorized, battery-powered ankle, sold by the Reykjavik-based company Ossur.
Since there are no integrated batteries to deal with, there's no need to replace the sensors
A Science article commenting on the new superlubricated surface mentions that"nearly one-third of a vehicle's fuel energy is spent on overcoming engine
so that it could conduct electricity. When they tested one conductive gel with the nanotubes and one without,
"Potential applications range from sensors integrated with packaging, to textiles that convert body heat to electricity,
and tongue-stimulating electrodes connected to a handheld battery-operated device. When cameras in the glasses pick up visual stimuli, software converts the information to electrical pulses sent as vibrations to be felt on the user tongue.
#Self-Healing Material Could Instantly Fix Airplane Wings Mid-Flight Tiny scratches on a wind turbine
when the laser's focused energy ionizes the air. When touched the laser feels like sandpaper,
#For the first time, Waves Are Adding Power To The U s. Grid Azura, a machine that turns the mothion of waves into electricity,
but now they're also a source of electricity. For the first time in the United states, energy collected from waves is being turned into electricity that is heading onto the grid,
and powering homes in Hawaii. The project involves the Azura prototype, built by Northwest Energy Innovations.
Azura is a 45 ton machine that moves with the swells of the waves capturing their complex motion in 360 degrees
there are a lot more wave energy projects in the works. The Department of energy (DOE) notes that over 50 percent of the population in the United states lives within 50 miles of the coast,
making waves (and their energy) an easily accessible renewable energy option. The DOE is currently sponsoring the Wave Energy Prize
a competition open to the public where teams attempt to build the best wave energy device.
Registration for the competition just closed this week, and 92 teams have submitted proposals, hoping to reach the grand prize of $1. 5 million.
It can provide immense energy to a precise location at a very specific wavelength, but it always fallen short in one regard:
The pod has its own battery pack and requires to be submerged on the surface to work.
the start-up that develops tech to collect footfall energy, has collaborated with Tesla in an experiment to charge cars through the power of the footstep.
and demonstrates the wealth of energy we create with each step. While a single footstep will not solve our fossil fuel problems
or give enough energy to even move the car by an inch, foot traffic on London busy Oxford street can generate enough energy in a day to drive an electric car 953 miles. he system works,
Pavegen CEO and Founder Laurence Kemball-Cook shares, ut we need several hundred thousand footsteps to allow the vehicle to drive 20 minutes within London busiest streets. avegen electricity
-generating tiles are gaining a lot of interest in the renewable energy sector. The startup reached its funding goal of £750, 000 (around $1. 2 million) in 60 hours from 535 investors on Crowdcube.
and campaign for a future where walking is a source of electrical energy. As of writing, Pavegen has raised over $2. 2 million with backers chipping in as much as $85, 000 each.
instead, relying on kerosene generators, battery-powered lamps or candles for light during the night.
The SALT (Sustainable Alternative Lighting) lamp offers a healthier solution with a saltwater-powered battery.
The lamp uses the science behind a galvanic cell for power. The cell is an electrochemical power source,
powered by electrical energy which cause spontaneous redox reactions. Two different metals, a anode and a cathode
What the lamp will do is take the same process and change the electrolytes into a nontoxic, saline solution.
Batteries contain strong acids, and pollute ground and water when disposed of. The SALT lamp can also connect to a smartphone.
Electricity is difficult to use in these situations and the SALT lamp can provide it.
#Canadian partners hope for battery boost Call2recycle, which has operations across Canada, focuses on consumer single-use and rechargeable batteries weighing less than 5 kg,
while the CBA mainly deals in lead-acid batteries of all sizes, primarily collected from the industrial, commercial and institutional sectors.
The two organisations aim to work together to increase the number of drop-off points, reduce consumer confusion and share operations and infrastructure where practicable.
today's announcement is a real step forward in helping keep batteries out of landfills across the country
and is powered by a small battery, removing the need for it to be wired, and contains tiny reservoirs filled with the drugs to be administered during tests.
the computers shut down as their batteries drain. And worst of all-your smartphone dies. This scenario was one of the inspirations for Andrew Burns of California startup Stower to develop the candle charger.
it creates a diffusion of energy from the hot side to the cold side, "said Burns, cofounder of the company.
In an emergency situation a small amount of energy can go a long way, says Burns.""Part the power of a mobile handset
and they only need tiny little bits of energy, "he added. The company has developed also a similar device designed to charge phones over a campfire.
and provide sustainable micro-energy solutions in emerging markets. Stower has raised nearly $27, 000 on Kickstarter for the candle charger with 30 days left in the campaign n
#Scientists Create Liquid Metal Antenna By placing an electrical potential across the interface between liquid eutectic gallium and indium and an electrolyte,
Since a diode acts as an electricity valve, its structure needs to be asymmetric so that electricity flowing in one direction experiences a different environment than electricity flowing in the other direction.
In order to develop a single-molecule diode, researchers have designed simply molecules that have asymmetric structures. hile such asymmetric molecules do indeed display some diode-like properties,
Electrons that are driven toward the center absorb enough energy so that some of them emit blue light at double the frequency of the incoming infrared light.
determine its golden color and conduct electricity. The electronic tongue distinguishes between lagers by detecting the different concentrations of polyphenols.
Solar cell Made Of Highly Ordered Molecular Frameworks Researchers have developed a functioning organic solar cell consisting of a single component has been produced on the basis of metal-organic framework compounds (MOFS.
suggest that the excellent properties of the solar cell result from an additional mechanism the formation of indirect band gaps that plays an important role in photovoltaics.
Nature uses porphyrines as universal molecules e g. in hemoglobin and chlorophyll, where these organic dyes convert light into chemical energy.
The metal-organic solar cell was produced on the basis of this novel porphyrine-MOF. he clou is that we just need a single organic molecule in the solar cell
and take up electric charges. By means of a process developed at KIT, the crystalline frameworks grow in layers on a transparent,
MOF thin films of a few hundred nanometers in thickness can be used for flexible solar cells or for the coating of clothing material or deformable components.
While the demand for technical systems converting sunlight into electricity is increasing, organic materials represent a highly interesting alternative to silicon that has to be processed at high costs before it can be used for the photoactive layer of a solar cell.
Citation: Jinxuan Liu, Wencai Zhou, Jianxi Liu, Ian Howard, Goran Kilibarda, Sabine Schlabach, Damien Coupry, Matthew Addicoat, Satoru Yoneda, Yusuke Tsutsui
these sorts of materials are"super"at conducting electricity: When superconductors are cooled below a certain temperature,
which resists the flow of electricity, those eddies would weaken. The lack of electrical resistance in superconductors means that once an eddy current starts
reactive material system capable of performing computations without external energy inputs, amplification or computer mediation. The studies combine Balazs'research in Belousov-Zhabotinsky (BZ) gels, a substance that oscillates in the absence of external stimuli,
Chemical computing systems are limited by both the lack of an internal power system and the rate of diffusion as the chemical waves spread throughout the system,
which conduct electricity, and insulators, which don, are polar opposites. At least that what wee believed until now.
such as glass, are stuck largely in one place, yielding high resistance to the flow of electricity.
and longer battery life.""With all light, computing can eventually be millions of times faster, "Menon said.
#Solar cells that work on cloudy days just hit a record-breaking 22.1%efficiency There's been plenty of good news about solar power lately-not only are governments around the world using it more and more,
traditional solar cells simply don't work that well unless they're in direct, bright sunlight. To rectify this, researchers have been working on creating structures called black silicon solar cells,
which absorb way more light and are useful even on overcast days. But they've never been efficient enough to be real players in the solar race-up until now, that is.
A team of European researchers has announced just that they've set a new record by creating black silicon solar cells that can convert 22.1 percent of the Sun's light into electricity-an increase of almost four percent on their previous record.
While this doesn't compare to the record of 40 percent efficiency in traditional silicon solar cells,
it shows that black silicon solar cells are now real contenders that could help greatly reduce the cost of solar power in the future.
Even more impressively, the team compared their new black silicon solar cells with traditional solar cells of the same efficiency,
and showed that their cells increased daily energy production by 3 percent, thanks to their ability to suck up light even
black cells generate considerably more electricity than traditional cells even though both cells have identical efficiency values."
"What's different about black silicon solar cells is that their surfaces are covered in tiny, nanoscale ridges,
rather than flowing through the cell as electricity-a problem that's created a limit to how efficient the cells could become.
Publishing in Nature Nanotechnology, the researchers report that their resulting cells are the most efficient black silicon solar cells to date, capable of turning 22.1 percent of available light into electricity."
and black silicon solar cells have real potential for industrial production, "the authors write. What's even more exciting about this research is the fact that the team hasn't optimised the new cells as yet,
Basically, this means that we may soon see solar panels on the market that can create electricity no matter where the Sun is in the sky,
'Manufactured in France by Audi partner company, Global Bioenergies, the fuel is produced by converting corn-derived glucose-a renewable source of biomass sugar-into isobutane gas.
Commonly used in refrigeration systems and aerosols, isobutane gas is also one of the staples of the petrochemical industry.
In this case, the team at Global Bioenergies refined it into a clear, high-grade,'unleadedfuel.""The next step in the process was to run the material through a conditioning
so that no biomass is required-just water, hydrogen, CO2 and sunlight, like how they're producing their new'e-diesel'fuel."
vice president for chemical engineering at Global Bioenergies, told Gizmag.""It's basically how we're moving away from an oil-based economy towards something that has a renewable, sustainable future to it."
light batteries from wood pulp Researchers have created a new type of high-capacity storage device that both elastic and super-strong,
and it will let us store way more electricity in much smaller spaces. The foam-like batteries and supercapacitors were made using an aerogel material taken from tree fibres,
and unlike today batteries, could be used to create 3d structures, and line flexible and odd-shaped materials such as clothing or the bodies of vehicles."
"There are limits to how thin a battery can be, but that becomes less relevant in 3d,"lead researcher Max Hamedi,
from the KTH Royal Institute of technology in Sweden and Stanford university in the US, said in a press release."
The batteries and supercapacitors-which are devices that store and release power much faster than batteries-were made out of a wood-based aerogel.
To create this aerogel, the team first broke down cellulose, the fibre found in trees,
"This aerogel is coated then with a special ink that conducts electricity within the aerogel, giving it the electronic properties that a battery requires.
Using the material as a base, the team carefully engineered a 3d supercapacitor with carbon nanotube electrodes,
and a hybrid battery. Both of them were fully functional even at 75 percent compression,
porous batteries such as this one would not be practical or have much storage capacity, Hamedi explains that it actually offers more functionality.
but in the future they could be used to store electricity in places that current batteries can't, and could help electric cars travel further on a single charge, thanks to their light and bendy structure.
#Light-based computers will be even more awesome than we thought Researchers have come up with an efficient way of transporting data between computer chips using light rather than electricity.
it also means we could build machines that consume far less energy. Wee already able to send data in the form of photons at incredible speeds through the optical fibres that make up our Internet,
it's also energy intensive, and it's responsible for making our computers so hot.""Up to 80 percent of the microprocessor power is consumed by sending data over the wires, one of the researchers,
and far more energy-efficient computers that use light rather than electricity for internal data transport, "as the press release explains.
and made it capable of continuously powering a battery-free surveillance camera. Even better, their work didn interfere with the router's data transfer speeds.
Researchers have known long that the electromagnetic waves broadcast by Wi-fi routers could be harnessed for energy as well as sending information,
not only run battery-free temperature and camera sensors using Wi-fi signals from a distance of six and five metres respectively,
they also proved that they could charge a range of coin-cell batteries at distances of up to nine metres.
#This origami-style battery could double the life of wearable gadgets If you own a smartwatch
-or indeed a smartphone-then you'll know that battery performance on modern-day gadgets isn't quite
With these devices so central to our daily lives, scientists from all over the world are working on smaller, better-performing batteries,
The innovation here isn't so much the material used in the batteries-it's the same lithium-ion compound that makes up the smartphone batteries of today-but the way in
this new battery style can be extended and retracted like a car antenna, even while it's powering a device.
That means the stretchable battery can go places where normal batteries can't go, like the band of your smartwatch or inside a very thin section of a robot.
The batteries that the researchers have created can stretch and expand to more than 150 percent of their compacted size,
scientists have spent many years trying to work on batteries that can be folded in this way, but packs created from previous attempts at the technology would often break
The batteries produced by the team from the US and China overcome this problem by placing carefully calculated soft creases at various points along the battery's body.
The inventors say that these batteries could double the life of a smartwatch between charges, for example,
by being fitted into the band. What's more, the manufacturing process is reasonably straightforward. There is a tradeoff though-the shape of these batteries means they can't hold as much charge as a comparable rectangular one."
"When you ask a battery to be flexible like this, you give up some of the energy you can store in a given volume.
But if you're a designer trying to make the thinnest watch face possible, who knows?
The aesthetics might make that tradeoff worth it,"Princeton university energy storage engineer Daniel Steingart, who wasn't involved in this particular research,
It won't break any records for battery life, then, but it could add some invaluable extra power where normal batteries are unable to go
-and that means these new kirigami batteries have a lot of potential for the years to come e
#Microsoft is building a drone army to catch mosquitoes and stop epidemics One potential use for drones that you might not have thought about is preventing the spread of disease.
They use expensive batteries and chemicals that are difficult to source, and indiscriminately collect plenty other bugs besides mosquitoes-there's huge room for improvement in terms of the technology and its efficiency,
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