Researchers from Harvard John A. Paulson School of engineering and Applied science (SEAS) have developed a new system that can produce stable, amorphous nanoparticles in large quantities that dissolve quickly.
The technique involves first dissolving the substances in good solvents, such as water or alcohol. The liquid is pumped then into a nebulizer
the water is going to evaporate faster when you stand in the wind, said Amstad. he stronger the wind,
The possible applications range from rewritable paper, to water decontamination, to the controlled delivery of drugs or other substances.
In addition to durable ewritable paper, Klajn suggests that future applications of this method might include removing pollutants from water certain nanoparticles can aggregate around contaminants
a type of solar power based on the ability of plants to transform sunlight, carbon dioxide and water into sugars.
especially the catalysts that convert water and carbon dioxide into sugars at room temperatures.""This is not about mimicking nature directly
or water and therapeutic drug monitoring at home, a feature which could drastically improve the efficient of various class of drugs and treatments a
-which created templated that could be filled with water-and fat-loving molecules known as amphiphillic molecules.
and is constantly emitting water molecules through tiny pores in the skin. Scientists of the Nanochemistry group led by Bettina Lotsch at the Max Planck Institute for Solid State Research in Stuttgart
phosphorous, oxygen and hydrogen atoms. t long been known to scientists that this material is able to take up water
This water uptake also changes the properties of the material. For instance, its electrical conductivity increases as the number of stored water molecules rises.
This is what enables it to serve as a measure of ambient moisture. A sandwich nanomaterial structure exposed to moisture also changes its colour However
for instance by moving a finger towards the screen. he reason for this lies in the storage of water molecules between the phosphatoantimonate layers,
A team led by Cockrell School of engineering associate professor Christopher Ellison found that a synthetic coating of polydopamine--derived from the natural compound dopamine--can be used as a highly effective, water-applied flame retardant for polyurethane foam.
The polydopamine was coated onto the interior and exterior surfaces of the polyurethane foam by simply dipping it into a water solution of dopamine for several days.
The compound is repelled by water at neutral ph, which allows it to easily diffuse through cellular and nuclear membranes,
#Innovative Bioelectronic Nose Smells Traces of Bacteria in Water A bioelectronic nose that mimics the human nose can detect traces of bacteria in water by smelling it, without the need for complex equipment and testing.
and it can detect tiny amounts of contamination in water, making it more sensitive than existing detection methods.
There are two main problems caused by bacteria and other microbes in water: they can make the water toxic,
and make it smell bad. At high concentrations, bacteria can be toxic in drinking water. But at lower levels virtually undetectable by current culturing techniques they can cause an ff flavor,
even if the water isn toxic, you don want to drink it. We wanted to develop a way to detect
so people are happy to drink water. raditionally, water was tested for contamination with bacteria by taking a sample
and trying to grow the bacteria in the lab . When the bacteria grow, scientists can count the number of colonies
and calculate the concentration of bacteria in the water. Another approach is to detect the smells directly;
compact device for testing water that is suitable for using on-site. In addition to contamination of drinking water bacteria and other microbes can also contaminate rivers and lakes for example, the algal blooms in Hong kong.
Catching this kind of contamination early means it easier to control. We have five senses sight, hearing, touch, smell and taste.
Bacteria that contaminate water give off particular smells that are associated with a handful of smell molecules.
The new nose-like device can detect these smells at very low concentrations of just 10ng per liter of water.
And on top of that was water, into which the scientists injected the molecules that spontaneously form the toxic aggregates."
the aggregates appear as tiny bright spots in a sea of black: bright where the liquid crystal has been disturbed to let light pass."
or for drug researchers to put the amyloid proteins in water, inject their drug, and study how the drug influences the growth of the aggregates over time."
They are sharing concepts and ideas with researchers across the Pacific ocean. In Asia, Japan aerospace exploration agency (Jaxa) is also working on a hypersonic airliner called Hytex intended to cross the Pacific ocean in two hours at speeds of Mach 5. Both Lapcat-II
and Jaxa are part of a hypersonic knowledge-transfer project between Europe and Japan called Hikari.
If the hydrogen can be sourced from natural gas, instead of from the electrolysis of water, the airfare tickets of a hypersonic trip could drop to about half the price of a business-class ticket.
They are able to grow in seawater, and their strong, stilt-like root systems allow them to thrive in swamps, deltas or coastal areas.
"After the 2004 (Indian ocean) tsunami, it became evident-particularly in Sri lanka which was impacted severely-that those villages that had suffered intact mangroves significantly less damage than those that did not.
A report by the International union for conservation of nature (IUCN) published 12 months after the devastating tsunami compared two coastal villages in Sri lanka that were hit by the wall of water.
"Another advantage of a healthy mangrove ecosystem is stilted that the root systems serve as nurseries for many of the fish species that go on to populate coral reefs.
and why water should be filtered. Its pages contain nanoparticles of silver or copper, which kill bacteria in the water as it passes through.
In trials at 25 contaminated water sources in South africa, Ghana and Bangladesh, the paper successfully removed more than 99%of bacteria.
Tiny amounts of silver or copper also leeched into the water, but these were well below safety limits.
and pour water into it from rivers, streams, wells etc and out comes clean water-and dead bacteria as well,
According to her tests, one page can clean up to 100 litres of water. A book could filter one person's water supply for four years.
working with the charities Water is Life and ide. In these trials, the bacteria count in the water samples plummeted by well over 99%on average-and in most samples
it dropped to zero.""Greater than 90%of the samples had basically no viable bacteria in them,
after we filtered the water through the paper, "Dr Dankovich said.""It's really exciting to see that not only can this paper work in lab models,
could be fitted into a"kolshi"-the traditional water container used by many Bangladeshis. Dr Daniele Lantagne, an environmental engineer at Tufts University, said the data from the trials showed promise."
and why water should be filtered. Its pages contain nanoparticles of silver or copper, which kill bacteria in the water as it passes through.
In trials at 25 contaminated water sources in South africa, Ghana and Bangladesh, the paper successfully removed more than 99%of bacteria.
Tiny amounts of silver or copper also leached into the water but these were well below safety limits.
and pour water into it from rivers, streams, wells etc and out comes clean water-and dead bacteria as well,
According to her tests, one page can clean up to 100 litres of water. A book could filter one person's water supply for four years.
working with the charities Water is Life and ide. In these trials the bacteria count in the water samples plummeted by well over 99%on average-and in most samples,
it dropped to zero.""Greater than 90%of the samples had basically no viable bacteria in them,
after we filtered the water through the paper, "Dr Dankovich said.""It's really exciting to see that not only can this paper work in lab models,
could be fitted into a"kolshi"-the traditional water container used by many Bangladeshis. Dr Daniele Lantagne, an environmental engineer at Tufts University, said the data from the trials showed promise."
New CRISPR-Cas9 strategy edits genes 2 ways The CRISPR-Cas9 system has been in the limelight mainly as a revolutionary genome engineering tool used to modify specific gene sequences within the vast sea of an organism
n the astroglial endfeet there are special water channels (aquaporin-4 water channels) which are critical for how efficiently the glymphatic system can get rid of waste
because it allows water to move fast through the brain tissue so as to lushwaste products out efficiently.
It is like dropping a stone into water and then watching the waves spread across the surface,
Now, researchers from MIT and the Federal University of Goias in Brazil have developed a new technique that uses ultraviolet (UV) light to extract man-made pollutants from soil and water.
Knowing that UV radiation is used for removing bacteria from water, they developed the idea of using their discovery for water purification.
hydrophilic (water-loving) shell and a hydrophobic (water-fearing) spherical core. he polymers are synthetized to ensure that
the water-loving part is separated from the water-fearing part. When this happens on a nanoparticle,
and therefore clump together to minimize contacts with water, Bertrand explained. From there, these larger aggregates can easily be retrieved through filtration or sedimentation,
with more than 95 percent of the nanoparticles removed from the water. When the nanoparticle loses its protective layer,
polymers are released into the water. While the polymer released (polyethylene glycol) is recognized as safe and used in various food, pharmaceutical and cosmetics products,
Still, even with the small amount of material released into the water Bertrand nanoparticles have compared benefits with current purification processes.
Plus, these chemical degradation processes do not work on all types of chemicals. hen unusual/unheard of molecules are found as contaminants (for example, the chemical spill in Elk River, WV, in January 2014),
other processes, such as activated carbon extraction, require great energy to push large quantities of water through filters. n our technology,
By filtering water through paper embedded with silver or copper nanoparticles, 99.9 percent water purity is achievable.
She calls it he Drinkable Book. Silver nanoparticles eliminate a wide variety of microorganisms, including bacteria and some viruses
which is put in a special holding device that water is filtered then through. One page can filter 26 gallons of drinking water;
one book can filter a person water needs for four years. Dankovich presented her technology
For example, if we need to use it to purify huge quantities of water the researchers said.
The erfumed ionic liquidreleases its aroma when it comes into contact with water, allowing more of the perfume scent to be released onto a person skin.
you could use these to measure dissolved oxygen or ph from a lot of different sites all over a pond or a lake,
when he observed the Indus river merging with the sea. He noted that"round globules filled with water"floated on the seawater and formed when the freshwater detached sand from the sand banks."
"Burnes probably didn't think they could be used to help develop a therapy for spinal cord repair,
The compound is repelled by water at neutral ph which allows it to easily diffuse through cellular and nuclear membranes,
but will pay $6 for water. You can drink water free out of the tap,
and it's good water.""Journalists and amused fans took to Twitter to mock Jay z's ignorance of the fact that people pay taxes
and fees to have a company make water come out of your tap. An executive from a water company even wrote an open letter to Jay z,
has blown rival streaming services out of the water. It doesn't just feature curation like Tidal does;
spilling 24 million cubic metres of mine waste and water into nearby lakes and rivers. Polak said the new requirements apply to all mining companies with applications currently under environmental assessment
and options for water balance to enhance safety and reduce the risk of a dam failure.
The report concluded the construction of the mine's tailings dam foundation on a sloping glacial lake deposit amounted to loading a gun and pulling the trigger.
The crew is part of the University of Hawaii's fourth Hawaii space exploration analog and simulation (HI-SEAS) mission,
Geologists at the Iowa Geological Survey found 150 pieces of fossils about 18 metres (60 feet) under the Upper Iowa River
all the action was in the sea and it was pretty small scale, said James Lamsdell of Yale,
and potentially lethal behavior linked to contaminated food and water. However, E coli exists in a wide variety of strains, most
one recent development is proposed a new $75 million round of funding for an Energy department project for making fuel out of sunlight, carbon dioxide, and water.
while the photo-generated holes in the titanium oxide split water molecules to make oxygen. The bacteria in this first step is S. ovata:
We were able to uniformly populate our nanowire array with S. ovata using buffered brackish water with trace vitamins as the only organic component.
#First Offshore wind farm In U s. Under Construction In July, American offshore wind developer, Deepwater Wind, installed the first foundation for
what is expected to be the first offshore wind farm in the United states. The project will be located three miles southeast of Block island, Rhode island.
the Block island Wind farm is expected to come online in 2016. Deepwater Wind, the developer, is also planning two larger offshore projects along the Atlantic coast,
but their timing remains uncertain. The National Renewable energy Laboratory (NREL) estimates that the United states has 4
In addition, offshore wind turbines are built to take advantage of the more consistent wind speeds present over the ocean,
securing turbines to the seafloor, and operating in fewer periods of fair weather. The harsher offshore environment not only makes it difficult
it should come as very little surprise that Small Islands Developing States (SIDS) are more supportive than the global average,
global sea level rise. e are excited very that World Wide Views on Climate and Energy is being organized
#Micro motors could soak up CO2 pollution in the oceans, study finds Machines that are smaller than the width of a human hair could one day help clean up carbon dioxide pollution in the oceans,
new research has found. Nanoengineers at the University of California, San diego, have designed enzyme-functionalized micromotors that rapidly zoom around in water,
remove carbon dioxide and convert it into a usable solid form. The proof of concept study represents a promising route to mitigate the build up of carbon dioxide,
In their experiments, nanoengineers demonstrated that the micromotors rapidly decarbonated water solutions that were saturated with carbon dioxide.
Within five minutes, the micromotors removed 90 percent of the carbon dioxide from a solution of deionized water.
The micromotors were just as effective in a sea water solution and removed 88 percent of the carbon dioxide in the same timeframe."
like a water decarbonation plant,"said Kevin Kaufmann, an undergraduate researcher in Wang's lab and a co-author of the study.
which speeds up the reaction between carbon dioxide and water to form bicarbonate. Calcium chloride which is added to the water solutions,
helps convert bicarbonate to calcium carbonate. The fast and continuous motion of the micromotors in solution makes the micromotors extremely efficient at removing carbon dioxide from water,
said researchers. The team explained that the micromotors'autonomous movement induces efficient solution mixing, leading to faster carbon dioxide conversion.
To fuel the micromotors in water, researchers added hydrogen peroxide, which reacts with the inner platinum surface of the micromotors to generate a stream of oxygen gas bubbles that propel the micromotors around.
When released in water solutions containing as little as two to four percent hydrogen peroxide the micromotors reached speeds of more than 100 micrometers per second.
As a next step, researchers are planning to make carbon-capturing micromotors that can be propelled by water."
and the second one contained nothing but water. source)( source)( source)( source) After approximately 17 hours, the gene fragment (according to Montagnier) was recovered from both tubes,
even though one should have contained just water. Although Montagnier claims have received harsh criticism from various scientists,
so light it can float on water. The radical new material, called a metal matrix composite, was developed with the US ARMY.
and has a density of only 0. 92 grams per cubic centimeter compared to 1. 0 g/cc of water.
Not only does it have a density lower than that of water, it is strong enough to withstand the rigorous conditions faced in the marine environment.
Significant efforts in recent years have focused on developing lightweight polymer matrix composites to replace heavier metal-based components in automobiles and marine vessels.
when it comes into contact with water Building repairs and potholes cost billions every year -and that's not to mention the amount of roadworks created by ongoing maintenance.
and water enters them, the water'awakens'the bacteria (animated). The bacteria'eat'the calcium lactate
and secrete limestone which closes the cracksin conventional, reinforced concrete stress gradually creates small cracks. Water penetrates the steel in the concrete
which starts to rust and becomes brittle. Using a type of bacteria that is typically found near active volcanoes,
and near soda lakes like those near Wadi Natrun in Egypt, the researchers mix the bio material into the concrete as it is made.
along with calcium lactate, is mixed with water and concrete components. When cracks in the concrete appear, and water enters them,
the water'awakens'the bacteria -which can lie dormant for 200 years. Once active, the bacteria'eat'the calcium lactate and secret limestone
which closes the cracks. It takes three weeks for the bacteria to seal the cracks,
These adaptations allow biological organisms to survive in a wide variety of different environments-allowing animals to make the move from living in the water to living on land, for instance.
but landing at 12 miles (20 km) above sea level will make space flight more like taking a passenger jet.'
from the deep ocean to deep space, using 3d holographics. The ship is fitted with speed of light weapons, while the ultra-strong acrylic hull,
which travel through water in a near frictionless air bubble that allows speeds of more than 345mph.
boulder-strewn or otherwise irregular terrain Ship landings in violent sea states For example, the landing gear is designed to let a helicopter touch down on sloping terrain up to 20 degrees,
The agency is hoping to build on its automated mid-air refuelling technology alongside the sea based platforms for capturing drones as they come into land.
and light being teleported across the Danube river in Austria. In 2014, physicists at the University of Geneva teleported the quantum state of a photon to a crystal over 15 miles (25km) of optical fibre.
do need they to push more water? How many calories have consumed they?''There is a lot of information we can provide commanders that they can use to manage their soldiers.'
The most recent supervolcanic eruption On earth occurred 27,000 years ago at Taupo located at the center of New zealand's north island.
North america and the Gulf of mexico for several years in the aftermath of the eruption, says the report e
The invention could pave the way for the development of'flying submarines'-vehicles that can seamlessly travel through air and water
Engineers at Harvard's John A Paulson School of engineering and Applied science (Seas) have been working on the Robobees for several years.
and use similar flapping motions to the robots to propel themselves through air as well as water.'
'Through various theoretical, computational and experimental studies, we found that the mechanics of flapping propulsion are actually very similar in air and in water,
'In order to make the transition from air to water, the team first had to solve the problem of surface tension.
The Robobee is so small and light it couldn't break the surface tension of the water at first.
But the researchers worked out a way of making it hover over the water at a certain angle,
By doing this, the Robobee is able to crash into the water in a controlled way and sink.'
'Water is almost 1, 000 times denser than air and would snap the wing off the Robobee
The team prevented the Robobee from short-circuiting in the water by coating the electrical connections with glue.
It also only currently swims in deionised water. Another drawback, is that as yet, the robot can't make the transition from water to air,
because it can't generate enough lift without snapping one of its wings. Solving this issue is the next challenge.'
'Robert Wood, the Charles river Professor of Engineering and Applied sciences At seas added:''Bioinspired robots, such as the Robobee, are invaluable tools for a host of interesting experiments--in this case on the fluid mechanics of flapping foils in different fluids.''
'From Ocean's Eleven to Star trek, weapons that wipe out enemy electronics are a staple of science fiction films.
'In tests, the grooves in the e skin were able to respond to water droplets running across them
The authors tested the e skin's response to sensory changes created by water droplets and found that the skins can detect water falling at different pressures and temperatures.
They also found that the artificial fingertip skin could detect a tiny amount of pressure created by a human hair.
users need only dip it into a cup filled with plain, old water before brushing.
000psi twice the strength of ordinary concrete and have demonstrated resistance to water and chemical erosion.
MECC uses the natural conductivity of saline wastewater to facilitate an electrochemical reaction that is designed to absorb CO2 from both the water and the air.
or used to counter acidity downstream from the process such as in the ocean. The reaction also yields excess hydrogen gas,
Plumestop Liquid Activated carbon was developed to stop migrating groundwater contaminant plumes and designed to meet stringent groundwater standards at contaminated sites.
Regenesis says the substrate reduces harmful chemicals and toxins, while enhancing or accelerating microbial-driven biodegradation processes.
Plumestop, effective on a wide range of contaminants, protects human health from groundwater contaminants and prevents contaminant migration across property boundaries,
Plumestop is composed of very fine particles of activated carbon (1-2 m) suspended in water through the use of unique organic polymer dispersion chemistry.
rapidly removing contaminants from groundwater and expediting permanent contaminant biodegradation o
#Cleaning water one stroke at a time A material created by University of California, Riverside engineers is the key component of a swimsuit that won an international design competition for its ability to clean water as a person swims.
The reusable material, which they call Sponge, is derived from heated sucrose, a form of sugar.
meaning it repels water, but also absorbs harmful contaminants.""This is a super material that is not harmful to the environment
and Hamed Bay, who recently earned his Ph d. after working with the Ozkan's, began developing the material about four years ago for applications such as cleaning up oil
or desalinizing water. They also believe the unique water-repelling nature of the material could be used in paint applied to airplanes and satellites or as part of electromagnetic shields for such things as unmanned aerial vehicles.
The idea to incorporate the material into wearable technology, such as the swimsuit, came from Pinar Guvenc, Inanc Eray and Gonzalo Carbajo, partners of Eray Carbajo,
At these wavelengths, the laser light is absorbed easily by water molecules, which are the main constituents of human tissue.
they can be used to target water molecules during an operation and make incisions in very small areas of tissue without penetrating deeply.
The parasite swims freely in open bodies of water. Once contact is made with humans, the parasite burrows into the skin, matures into another stage,
and other electrically conducting materials to be added to conventional water-based inks and printed using typical commercial equipment,
which is added to conductive water-based ink formulations. The ratio of the ingredients can be adjusted to control the liquid's properties,
allowing the carrier solvent to be mixed easily into a conventional conductive water-based ink to significantly reduce the resistance.
Researchers at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS) have done just that, designing the first on-chip metamaterial with a refractive index of zero,
When light passes through water, for example, its phase velocity is reduced as its wavelengths get squished together.
Once it exits the water, its phase velocity increases again as its wavelength elongates. How much the crests of a light wave slow down in a material is expressed as a ratio called the refraction index--the higher the index,
Water, for example, has a refraction index of about 1. 3 . When the refraction index is reduced to zero,
The compound is repelled by water at neutral ph which allows it to easily diffuse through cellular and nuclear membranes,
The steel of today is as prone as ever to the corrosive effects of water and salt and abrasive materials such as sand.
researchers at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS) have demonstrated a way to make steel stronger, safer and more durable.
The team solved this by using an electrochemical technique to grow an ultrathin film of hundreds of thousands of small and rough tungsten-oxide islands directly onto a steel surface."
"If one part of an island is destroyed, the damage doesn't propagate to other parts of the surface because of the lack of interconnectivity between neighboring islands,
"said Alexander B. Tesler, former postdoctoral fellow AT SEAS, current research fellow at Weizmann Institute of Science in Israel and the paper's first author."
"This island-like morphology combined with the inherent durability and roughness of the tungsten oxide allows the surface to keep its repellent properties in highly abrasive applications,
including water, oil, highly corrosive media, biological fluids containing bacteria and blood. Not only did the material repel all the liquid
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